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2 Commits
v0.2.3 ... 6120625fa9

Author SHA1 Message Date
alexei.dolgolyov 6120625fa9 chore(scripts): harden restart-server.ps1 against installer vs dev launches
Lint & Test / test (push) Successful in 13s
Details 
The previous version only killed processes named 'media-server', which
silently missed the installer-bundled process (which runs as plain
python.exe via media-server.bat). The new version:

- Kills whatever currently owns the listen port, regardless of process name
- Supports -Mode auto|dev|installer; auto-detects based on whether the
  installer launcher exists in %LOCALAPPDATA%\Media Server
- Verifies the port is listening after start
- Merges registry PATH so newly-installed dev tools are visible

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
 2026-05-15 14:28:14 +03:00
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
8 changed files with 947 additions and 69 deletions
Expand all files Collapse all files
media_server/routes/display.py
+75 -4
View File
@@ -1,4 +1,4 @@
"""Display brightness and power control API endpoints."""
"""Display brightness, power, contrast, input-source, color-preset and picture-mode API."""
import logging
@@ -9,6 +9,10 @@ from ..auth import verify_token
from ..services.display_service import (
list_monitors,
set_brightness,
set_color_preset,
set_contrast,
set_input_source,
set_picture_mode,
set_power,
)
@@ -25,12 +29,35 @@ class PowerRequest(BaseModel):
on: bool
class ContrastRequest(BaseModel):
contrast: int = Field(ge=0, le=100)
class InputSourceRequest(BaseModel):
source: str
class ColorPresetRequest(BaseModel):
preset: str
class PictureModeRequest(BaseModel):
code: int = Field(ge=0, le=255)
@router.get("/monitors")
async def get_monitors(
refresh: bool = False, _: str = Depends(verify_token)
refresh: bool = False,
rediscover: bool = False,
_: str = Depends(verify_token),
) -> list[dict]:
"""List all connected monitors with brightness and power info."""
monitors = list_monitors(force_refresh=refresh)
"""List all connected monitors with their reported DDC/CI capabilities.
- `refresh=true` bypasses the response TTL cache (re-reads current state).
- `rediscover=true` also drops the per-monitor capability cache, forcing
a full DDC/CI capability probe. Use after a monitor hot-swap.
"""
monitors = list_monitors(force_refresh=refresh, rediscover=rediscover)
logger.debug("Found %d monitors", len(monitors))
return [m.to_dict() for m in monitors]
@@ -56,3 +83,47 @@ async def set_monitor_power(
if success:
logger.info("Set monitor %d power %s", monitor_id, action)
return {"success": success}
@router.post("/contrast/{monitor_id}")
async def set_monitor_contrast(
monitor_id: int, request: ContrastRequest, _: str = Depends(verify_token)
) -> dict:
"""Set DDC/CI contrast for a specific monitor."""
success = set_contrast(monitor_id, request.contrast)
if success:
logger.info("Set monitor %d contrast to %d", monitor_id, request.contrast)
return {"success": success}
@router.post("/input_source/{monitor_id}")
async def set_monitor_input_source(
monitor_id: int, request: InputSourceRequest, _: str = Depends(verify_token)
) -> dict:
"""Switch a monitor's DDC/CI input source (e.g. HDMI1, DP1)."""
success = set_input_source(monitor_id, request.source)
if success:
logger.info("Set monitor %d input source to %s", monitor_id, request.source)
return {"success": success}
@router.post("/color_preset/{monitor_id}")
async def set_monitor_color_preset(
monitor_id: int, request: ColorPresetRequest, _: str = Depends(verify_token)
) -> dict:
"""Apply a DDC/CI color preset (color temperature) to the monitor."""
success = set_color_preset(monitor_id, request.preset)
if success:
logger.info("Set monitor %d color preset to %s", monitor_id, request.preset)
return {"success": success}
@router.post("/picture_mode/{monitor_id}")
async def set_monitor_picture_mode(
monitor_id: int, request: PictureModeRequest, _: str = Depends(verify_token)
) -> dict:
"""Apply a DDC/CI picture/scene mode (VCP 0xDC) by raw code."""
success = set_picture_mode(monitor_id, request.code)
if success:
logger.info("Set monitor %d picture mode to code %d", monitor_id, request.code)
return {"success": success}
media_server/services/display_service.py
+347 -22
View File
@@ -1,4 +1,4 @@
"""Display brightness and power control service."""
"""Display brightness, power, contrast, input-source and color-preset control."""
import ctypes
import ctypes.wintypes
@@ -6,10 +6,33 @@ import logging
import platform
import struct
import time
from dataclasses import dataclass
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
@@ -32,7 +55,7 @@ def _load_monitorcontrol():
import monitorcontrol
_monitorcontrol = monitorcontrol
except ImportError:
logger.warning("monitorcontrol not installed - display power control unavailable")
logger.warning("monitorcontrol not installed - DDC/CI control unavailable")
return _monitorcontrol
@@ -64,6 +87,18 @@ class MonitorInfo:
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 {
@@ -76,6 +111,18 @@ class MonitorInfo:
"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,
}
@@ -137,17 +184,176 @@ def _mark_primary(monitors: list[MonitorInfo]) -> None:
monitors[0].is_primary = True
# Cache for monitor list
# 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 list_monitors(force_refresh: bool = False) -> list[MonitorInfo]:
"""List all connected monitors with their current brightness."""
global _monitor_cache, _cache_time
if not force_refresh and _monitor_cache is not None and (time.time() - _cache_time) < _CACHE_TTL:
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()
@@ -159,7 +365,13 @@ def list_monitors(force_refresh: bool = False) -> list[MonitorInfo]:
info_list = sbc.list_monitors_info()
brightnesses = sbc.get_brightness()
# Get DDC/CI monitors for power state
# 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:
@@ -181,25 +393,44 @@ def list_monitors(force_refresh: bool = False) -> list[MonitorInfo]:
edid = info.get("edid", "")
resolution = _parse_edid_resolution(edid) if edid else None
# Read power state via DDC/CI
power_on = True
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:
power_mode = mon.get_power_mode()
power_on = power_mode == mc.PowerMode.on
except Exception:
pass
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=power_on,
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)
@@ -234,9 +465,7 @@ def set_brightness(monitor_id: int, value: int) -> bool:
value = max(0, min(100, value))
try:
sbc.set_brightness(value, display=monitor_id)
# Invalidate cache
global _monitor_cache
_monitor_cache = None
_invalidate_cache()
return True
except Exception as e:
logger.error("Failed to set brightness for monitor %d: %s", monitor_id, e)
@@ -262,10 +491,106 @@ def set_power(monitor_id: int, on: bool) -> bool:
else:
monitor.set_power_mode(mc.PowerMode.off_soft)
# Invalidate cache
global _monitor_cache
_monitor_cache = None
_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
media_server/static/css/styles.css
+77 -10
View File
@@ -8022,24 +8022,36 @@ select option {
background: rgba(var(--copper-rgb), 0.06) !important;
}
/* Brightness control row */
.display-container .display-brightness-control {
display: flex;
/* Slider rows (brightness + contrast share this layout) */
.display-container .display-slider-row {
display: grid;
grid-template-columns: 18px minmax(0, auto) 1fr auto;
align-items: center;
gap: 14px;
gap: 12px;
}
.display-container .display-slider-row.display-brightness-control {
padding-top: 16px;
border-top: 1px solid var(--rule);
}
.display-container .display-brightness-icon {
.display-container .display-slider-icon {
color: var(--ink-mute);
width: 18px !important;
height: 18px !important;
flex-shrink: 0;
}
.display-container .display-brightness-slider {
.display-container .display-slider-label {
font-family: var(--mono);
font-size: 9px;
letter-spacing: 0.22em;
text-transform: uppercase;
color: var(--ink-mute);
white-space: nowrap;
}
.display-container .display-slider {
-webkit-appearance: none;
appearance: none;
flex: 1;
width: 100%;
height: 2px !important;
background: var(--rule-strong);
border-radius: 0;
@@ -8049,7 +8061,7 @@ select option {
border: 0 !important;
min-width: 0;
}
.display-container .display-brightness-slider::-webkit-slider-thumb {
.display-container .display-slider::-webkit-slider-thumb {
-webkit-appearance: none;
appearance: none;
width: 14px;
@@ -8059,20 +8071,24 @@ select option {
box-shadow: 0 0 12px var(--copper-glow);
border: 0;
cursor: grab;
transition: transform 140ms var(--ease);
}
.display-container .display-brightness-slider::-moz-range-thumb {
.display-container .display-slider::-moz-range-thumb {
width: 14px;
height: 14px;
background: var(--copper);
border-radius: 50%;
border: 0;
cursor: grab;
transition: transform 140ms var(--ease);
}
.display-container .display-brightness-slider:disabled {
.display-container .display-slider:hover::-webkit-slider-thumb { transform: scale(1.15); }
.display-container .display-slider:hover::-moz-range-thumb { transform: scale(1.15); }
.display-container .display-slider:disabled {
opacity: 0.4;
cursor: not-allowed;
}
.display-container .display-brightness-value {
.display-container .display-slider-value {
font-family: var(--mono);
font-size: 12px;
color: var(--copper);
@@ -8082,6 +8098,57 @@ select option {
text-align: right;
letter-spacing: 0.04em;
}
/* Picture tuning section — input source, color preset, picture mode.
The underlying <select> is hidden by IconSelect; the visible trigger
inherits the editorial .icon-select-trigger overrides defined later
in this file. */
.display-container .display-tuning {
padding-top: 18px;
border-top: 1px solid var(--rule);
display: flex;
flex-direction: column;
gap: 14px;
}
.display-container .display-tuning-title {
font-family: var(--mono);
font-size: 9px;
letter-spacing: 0.28em;
text-transform: uppercase;
color: var(--ink-faint);
display: flex;
align-items: center;
gap: 10px;
}
.display-container .display-tuning-title::after {
content: '';
flex: 1;
height: 1px;
background: linear-gradient(to right, var(--rule), transparent);
}
.display-container .display-tuning-grid {
display: flex;
flex-direction: column;
gap: 14px;
}
.display-container .display-tuning-field {
display: flex;
flex-direction: column;
gap: 8px;
}
.display-container .display-tuning-label {
font-family: var(--mono);
font-size: 10px;
letter-spacing: 0.18em;
text-transform: uppercase;
color: var(--ink-mute);
white-space: nowrap;
}
/* Make the IconSelect trigger fill the field width (cards are narrow) */
.display-container .display-tuning-field .icon-select-trigger {
width: 100%;
justify-content: flex-start;
}
.display-container .display-monitors > .empty-state-illustration {
grid-column: 1 / -1;
text-align: center;
media_server/static/js/app.js
+4
View File
@@ -63,6 +63,8 @@ import {
import {
loadDisplayMonitors, onDisplayBrightnessInput, onDisplayBrightnessChange,
onDisplayContrastInput, onDisplayContrastChange,
onDisplayInputSourceChange, onDisplayColorPresetChange, onDisplayPictureModeChange,
toggleDisplayPower, loadHeaderLinks, loadLinksTable,
showAddLinkDialog, showEditLinkDialog, closeLinkDialog, saveLink, deleteLinkConfirm,
linkFormDirty, setLinkFormDirty,
@@ -127,6 +129,8 @@ Object.assign(window, {
saveLink, deleteLinkConfirm,
// Display
loadDisplayMonitors, onDisplayBrightnessInput, onDisplayBrightnessChange,
onDisplayContrastInput, onDisplayContrastChange,
onDisplayInputSourceChange, onDisplayColorPresetChange, onDisplayPictureModeChange,
toggleDisplayPower,
// Audio device
onAudioDeviceChanged,
media_server/static/js/links.js
+324 -7
View File
@@ -1,12 +1,107 @@
// ============================================================
// Display Brightness & Power Control + Links Management
// Display Brightness, Power, Contrast, Input Source, Color Preset,
// Picture Mode Control + Links Management
// ============================================================
import { t, showToast, escapeHtml, closeDialog, showConfirm, resolveMdiIcons, fetchMdiIcon, getAuthHeaders, hasCredentials } from './core.js';
import { IconSelect } from './icon-select.js';
let displayBrightnessTimers = {};
let displayContrastTimers = {};
let _displayIconSelects = [];
const DISPLAY_THROTTLE_MS = 50;
// ─── Icon palette for the tuning IconSelects ───────────────────────────
// All SVGs are 24x24 monochrome — IconSelect's CSS fills them with currentColor.
const ICON_PORT_GENERIC =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M4 8h16v8H4V8zm2 2v4h12v-4H6zm2 1h2v2H8v-2zm4 0h2v2h-2v-2zm-9 6h18v2H3v-2z"/></svg>';
const ICON_PORT_HDMI =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M3 9l2-2h14l2 2v5l-2 2h-3l-1 1H9l-1-1H5l-2-2V9zm2.5.5v4l1 1h2l1 1h7l1-1h2l1-1v-4l-1-.5H6.5l-1 .5z"/></svg>';
const ICON_PORT_DP =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M4 8l2-2h12l2 2v8l-2 2H6l-2-2V8zm2 .5V15l1 1h10l1-1V8.5L17 8H7l-1 .5zM8 10h2v4H8v-4zm6 0h2v4h-2v-4z"/></svg>';
const ICON_PORT_DVI =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M3 8h18v8H3V8zm2 1.5v5h14v-5H5zM7 11h1.5v2H7v-2zm3 0h1.5v2H10v-2zm3 0h1.5v2H13v-2zm3 0h1.5v2H16v-2z"/></svg>';
const ICON_PORT_VGA =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M5 7h14a2 2 0 012 2v6a2 2 0 01-2 2H5a2 2 0 01-2-2V9a2 2 0 012-2zm0 2v6h14V9H5zm2 1.5a.75.75 0 100 1.5.75.75 0 000-1.5zm3 0a.75.75 0 100 1.5.75.75 0 000-1.5zm3 0a.75.75 0 100 1.5.75.75 0 000-1.5zm3 0a.75.75 0 100 1.5.75.75 0 000-1.5z"/></svg>';
const ICON_PORT_USBC =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M5 10a3 3 0 013-3h8a3 3 0 013 3v4a3 3 0 01-3 3H8a3 3 0 01-3-3v-4zm3-1.5A1.5 1.5 0 006.5 10v4A1.5 1.5 0 008 15.5h8a1.5 1.5 0 001.5-1.5v-4A1.5 1.5 0 0016 8.5H8zm1 2h6v3H9v-3z"/></svg>';
const ICON_THERMOMETER =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M12 3a3 3 0 00-3 3v8.17A4 4 0 1015 14.17V6a3 3 0 00-3-3zm-1.5 3a1.5 1.5 0 113 0v8.76a2.5 2.5 0 11-3 0V6zm1.5 5a1 1 0 011 1v2.27a1.5 1.5 0 11-2 0V12a1 1 0 011-1z"/></svg>';
const ICON_MODE_MOVIE =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M4 5h16v14H4V5zm2 2v2h2V7H6zm0 4v2h2v-2H6zm0 4v2h2v-2H6zm10-8v2h2V7h-2zm0 4v2h2v-2h-2zm0 4v2h2v-2h-2zm-6-7h4v8h-4V8z"/></svg>';
const ICON_MODE_GAME =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M7 8a5 5 0 00-5 5 4 4 0 007.4 2.1L11 14h2l1.6 1.1A4 4 0 0022 13a5 5 0 00-5-5H7zm1 3v1H7v-1H6v-1h1V9h1v1h1v1H8zm7 0a1 1 0 110-2 1 1 0 010 2zm2 2a1 1 0 110-2 1 1 0 010 2z"/></svg>';
const ICON_MODE_SPORT =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M12 2a10 10 0 100 20 10 10 0 000-20zm0 2c1.7 0 3.3.5 4.6 1.4l-1.4 2.4L12 6.5l-3.2 1.3-1.4-2.4A8 8 0 0112 4zm-7.6 4l2.5 1.3-.5 3.5L4 16.4A8 8 0 014.4 8zm15.2 0a8 8 0 01.4 8.4l-2.4-1.6-.5-3.5L19.6 8zM12 8.7l3 1.2.6 3.2L13 15h-2l-2.6-1.9.6-3.2L12 8.7zm-5.3 8.8L9 16.5l2.4 1h1.2l2.4-1 2.3 1A8 8 0 016.7 17.5z"/></svg>';
const ICON_MODE_PRO =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M3 4h18v12H13v2h4v2H7v-2h4v-2H3V4zm2 2v8h14V6H5zm2 2h6v2H7V8zm0 3h10v2H7v-2z"/></svg>';
const ICON_MODE_DOCS =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M6 3h9l4 4v14H6V3zm2 2v14h10V9h-4V5H8zm2 6h6v2h-6v-2zm0 3h6v2h-6v-2z"/></svg>';
const ICON_MODE_USER =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M12 3a4 4 0 100 8 4 4 0 000-8zm0 2a2 2 0 110 4 2 2 0 010-4zm0 8c-3.3 0-7 1.5-7 4.5V20h14v-2.5c0-3-3.7-4.5-7-4.5z"/></svg>';
const ICON_MODE_DEFAULT =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M3 5h18v12H3V5zm2 2v8h14V7H5zm-2 12h18v2H3v-2z"/></svg>';
const ICON_MODE_MIXED =
'<svg viewBox="0 0 24 24"><path fill="currentColor" d="M3 5h18v14H3V5zm2 2v10h7V7H5zm9 0v10h5V7h-5z"/></svg>';
function inputSourceIcon(src) {
const s = String(src || '').toUpperCase();
if (s.startsWith('HDMI')) return ICON_PORT_HDMI;
if (s.startsWith('DP')) return ICON_PORT_DP;
if (s.startsWith('DVI')) return ICON_PORT_DVI;
if (s.startsWith('VGA')) return ICON_PORT_VGA;
if (s.startsWith('USB')) return ICON_PORT_USBC;
return ICON_PORT_GENERIC;
}
function pictureModeIcon(label) {
const k = String(label || '').toLowerCase();
if (k.includes('movie')) return ICON_MODE_MOVIE;
if (k.includes('game')) return ICON_MODE_GAME;
if (k.includes('sport')) return ICON_MODE_SPORT;
if (k.includes('professional')) return ICON_MODE_PRO;
if (k.includes('productivity')) return ICON_MODE_DOCS;
if (k.includes('user')) return ICON_MODE_USER;
if (k.includes('mixed')) return ICON_MODE_MIXED;
return ICON_MODE_DEFAULT;
}
// Humanise enum-style identifiers returned by monitorcontrol so users
// don't see SHOUT_CASE strings in the UI.
function humanizeInputSource(raw) {
if (!raw) return '';
// OFF / RESERVED → "Off" / "Reserved"
// VGA1 → "VGA 1", HDMI1 → "HDMI 1", DP1 → "DisplayPort 1"
const map = { DP: 'DisplayPort', DVI: 'DVI', HDMI: 'HDMI', VGA: 'VGA', USBC: 'USB-C' };
const m = String(raw).toUpperCase().match(/^(DP|DVI|HDMI|VGA|USBC|USB_C)(\d*)$/);
if (m) {
const key = m[1] === 'USB_C' ? 'USBC' : m[1];
return `${map[key]}${m[2] ? ' ' + m[2] : ''}`;
}
return String(raw)
.replace(/_/g, ' ')
.toLowerCase()
.replace(/\b\w/g, c => c.toUpperCase());
}
function humanizeColorPreset(raw) {
if (!raw) return '';
// COLOR_TEMP_6500K → "6500 K", COLOR_TEMP_NATIVE → "Native",
// COLOR_TEMP_USER1 → "User 1"
const s = String(raw).replace(/^COLOR_TEMP_?/i, '');
const kelvin = s.match(/^(\d{4,5})K?$/);
if (kelvin) return `${kelvin[1]} K`;
const user = s.match(/^USER\s*_?(\d+)$/i);
if (user) return `User ${user[1]}`;
return s
.replace(/_/g, ' ')
.toLowerCase()
.replace(/\b\w/g, c => c.toUpperCase());
}
export async function loadDisplayMonitors() {
if (!hasCredentials()) return;
@@ -14,7 +109,7 @@ export async function loadDisplayMonitors() {
if (!container) return;
try {
const response = await fetch('/api/display/monitors?refresh=true', {
const response = await fetch('/api/display/monitors', {
headers: getAuthHeaders()
});
@@ -36,7 +131,13 @@ export async function loadDisplayMonitors() {
return;
}
// Destroy IconSelects from a previous render so listeners + popups
// don't pile up.
_displayIconSelects.forEach(inst => { try { inst.destroy(); } catch (_) {} });
_displayIconSelects = [];
container.innerHTML = '';
const pendingIconSelects = [];
monitors.forEach(monitor => {
const card = document.createElement('div');
card.className = 'display-monitor-card';
@@ -65,6 +166,116 @@ export async function loadDisplayMonitors() {
</span>`
: '';
// Contrast (DDC/CI) — render only if the monitor reports it.
let contrastRow = '';
if (monitor.contrast_supported) {
const contrastValue = monitor.contrast !== null && monitor.contrast !== undefined
? monitor.contrast : 50;
contrastRow = `
<div class="display-slider-row">
<svg class="display-slider-icon" viewBox="0 0 24 24" width="16" height="16" aria-hidden="true">
<path fill="currentColor" d="M12 2C6.48 2 2 6.48 2 12s4.48 10 10 10 10-4.48 10-10S17.52 2 12 2zm0 18V4c4.41 0 8 3.59 8 8s-3.59 8-8 8z"/>
</svg>
<span class="display-slider-label" data-i18n="display.contrast">${t('display.contrast')}</span>
<input type="range" class="display-slider display-contrast-slider"
min="0" max="100" value="${contrastValue}"
oninput="onDisplayContrastInput(${monitor.id}, this.value)"
onchange="onDisplayContrastChange(${monitor.id}, this.value)">
<span class="display-slider-value" id="contrast-val-${monitor.id}">${contrastValue}%</span>
</div>`;
}
// Build the picture-tuning selects (input source / color preset / picture mode).
const tuningRows = [];
// Each tuning field renders a hidden <select> (state holder)
// which IconSelect then enhances after the card lands in the DOM.
const tuningTargets = [];
if (monitor.input_source_supported && monitor.available_input_sources.length > 0) {
const current = monitor.input_source;
const options = monitor.available_input_sources.map(src => {
const selected = src === current ? 'selected' : '';
return `<option value="${escapeHtml(src)}" ${selected}>${escapeHtml(humanizeInputSource(src))}</option>`;
}).join('');
tuningRows.push(`
<div class="display-tuning-field">
<span class="display-tuning-label" data-i18n="display.input_source">${t('display.input_source')}</span>
<select data-display-select="input" data-monitor-id="${monitor.id}"
aria-label="${t('display.input_source')}">
${options}
</select>
</div>`);
tuningTargets.push({
kind: 'input',
monitorId: monitor.id,
items: monitor.available_input_sources.map(src => ({
value: src,
icon: inputSourceIcon(src),
label: humanizeInputSource(src),
})),
});
}
if (monitor.color_preset_supported && monitor.available_color_presets.length > 0) {
const current = monitor.color_preset;
const options = monitor.available_color_presets.map(p => {
const selected = p === current ? 'selected' : '';
return `<option value="${escapeHtml(p)}" ${selected}>${escapeHtml(humanizeColorPreset(p))}</option>`;
}).join('');
tuningRows.push(`
<div class="display-tuning-field">
<span class="display-tuning-label" data-i18n="display.color_preset">${t('display.color_preset')}</span>
<select data-display-select="color" data-monitor-id="${monitor.id}"
aria-label="${t('display.color_preset')}">
${options}
</select>
</div>`);
tuningTargets.push({
kind: 'color',
monitorId: monitor.id,
items: monitor.available_color_presets.map(p => ({
value: p,
icon: ICON_THERMOMETER,
label: humanizeColorPreset(p),
})),
});
}
if (monitor.picture_mode_supported && monitor.available_picture_modes.length > 0) {
const current = monitor.picture_mode_code;
const options = monitor.available_picture_modes.map(m => {
const selected = m.code === current ? 'selected' : '';
return `<option value="${m.code}" ${selected}>${escapeHtml(m.label)}</option>`;
}).join('');
tuningRows.push(`
<div class="display-tuning-field">
<span class="display-tuning-label" data-i18n="display.picture_mode">${t('display.picture_mode')}</span>
<select data-display-select="mode" data-monitor-id="${monitor.id}"
aria-label="${t('display.picture_mode')}">
${options}
</select>
</div>`);
tuningTargets.push({
kind: 'mode',
monitorId: monitor.id,
items: monitor.available_picture_modes.map(m => ({
value: String(m.code),
icon: pictureModeIcon(m.label),
label: m.label,
})),
});
}
pendingIconSelects.push(...tuningTargets);
const tuningBlock = tuningRows.length > 0
? `<div class="display-tuning">
<div class="display-tuning-title" data-i18n="display.tuning">${t('display.tuning')}</div>
<div class="display-tuning-grid">${tuningRows.join('')}</div>
</div>`
: '';
card.innerHTML = `
<div class="display-monitor-header">
<svg class="display-monitor-icon" viewBox="0 0 24 24" width="20" height="20">
@@ -76,18 +287,40 @@ export async function loadDisplayMonitors() {
</div>
${powerBtn}
</div>
<div class="display-brightness-control">
<svg class="display-brightness-icon" viewBox="0 0 24 24" width="16" height="16">
<div class="display-slider-row display-brightness-control">
<svg class="display-slider-icon display-brightness-icon" viewBox="0 0 24 24" width="16" height="16" aria-hidden="true">
<path fill="currentColor" d="M20 8.69V4h-4.69L12 .69 8.69 4H4v4.69L.69 12 4 15.31V20h4.69L12 23.31 15.31 20H20v-4.69L23.31 12 20 8.69zM12 18c-3.31 0-6-2.69-6-6s2.69-6 6-6 6 2.69 6 6-2.69 6-6 6zm0-10c-2.21 0-4 1.79-4 4s1.79 4 4 4 4-1.79 4-4-1.79-4-4-4z"/>
</svg>
<input type="range" class="display-brightness-slider" min="0" max="100" value="${brightnessValue}" ${brightnessDisabled}
<span class="display-slider-label" data-i18n="display.brightness">${t('display.brightness')}</span>
<input type="range" class="display-slider display-brightness-slider" min="0" max="100" value="${brightnessValue}" ${brightnessDisabled}
oninput="onDisplayBrightnessInput(${monitor.id}, this.value)"
onchange="onDisplayBrightnessChange(${monitor.id}, this.value)">
<span class="display-brightness-value" id="brightness-val-${monitor.id}">${brightnessValue}%</span>
</div>`;
<span class="display-slider-value display-brightness-value" id="brightness-val-${monitor.id}">${brightnessValue}%</span>
</div>
${contrastRow}
${tuningBlock}`;
container.appendChild(card);
});
// Enhance every tuning <select> with an IconSelect now that the
// cards are in the DOM (IconSelect needs offsetParent + sibling).
pendingIconSelects.forEach(({ kind, monitorId, items }) => {
const sel = container.querySelector(
`select[data-display-select="${kind}"][data-monitor-id="${monitorId}"]`
);
if (!sel) return;
const handler = kind === 'input' ? onDisplayInputSourceChange
: kind === 'color' ? onDisplayColorPresetChange
: onDisplayPictureModeChange;
_displayIconSelects.push(new IconSelect({
target: sel,
items,
columns: 1,
horizontal: true,
onChange: (value) => handler(monitorId, value),
}));
});
} catch (e) {
console.error('Failed to load display monitors:', e);
}
@@ -124,6 +357,90 @@ async function sendDisplayBrightness(monitorId, brightness) {
}
}
export function onDisplayContrastInput(monitorId, value) {
const label = document.getElementById(`contrast-val-${monitorId}`);
if (label) label.textContent = `${value}%`;
if (displayContrastTimers[monitorId]) clearTimeout(displayContrastTimers[monitorId]);
displayContrastTimers[monitorId] = setTimeout(() => {
sendDisplayContrast(monitorId, parseInt(value));
displayContrastTimers[monitorId] = null;
}, DISPLAY_THROTTLE_MS);
}
export function onDisplayContrastChange(monitorId, value) {
if (displayContrastTimers[monitorId]) {
clearTimeout(displayContrastTimers[monitorId]);
displayContrastTimers[monitorId] = null;
}
sendDisplayContrast(monitorId, parseInt(value));
}
async function sendDisplayContrast(monitorId, contrast) {
try {
const r = await fetch(`/api/display/contrast/${monitorId}`, {
method: 'POST',
headers: { 'Content-Type': 'application/json', ...getAuthHeaders() },
body: JSON.stringify({ contrast })
});
const data = await r.json().catch(() => ({}));
if (!data.success) showToast(t('display.msg.contrast_failed'), 'error');
} catch (e) {
console.error('Failed to set contrast:', e);
showToast(t('display.msg.contrast_failed'), 'error');
}
}
export async function onDisplayInputSourceChange(monitorId, source) {
try {
const r = await fetch(`/api/display/input_source/${monitorId}`, {
method: 'POST',
headers: { 'Content-Type': 'application/json', ...getAuthHeaders() },
body: JSON.stringify({ source })
});
const data = await r.json().catch(() => ({}));
if (data.success) showToast(t('display.msg.input_changed'), 'success');
else showToast(t('display.msg.input_failed'), 'error');
} catch (e) {
console.error('Failed to set input source:', e);
showToast(t('display.msg.input_failed'), 'error');
}
}
export async function onDisplayColorPresetChange(monitorId, preset) {
try {
const r = await fetch(`/api/display/color_preset/${monitorId}`, {
method: 'POST',
headers: { 'Content-Type': 'application/json', ...getAuthHeaders() },
body: JSON.stringify({ preset })
});
const data = await r.json().catch(() => ({}));
if (data.success) showToast(t('display.msg.color_changed'), 'success');
else showToast(t('display.msg.color_failed'), 'error');
} catch (e) {
console.error('Failed to set color preset:', e);
showToast(t('display.msg.color_failed'), 'error');
}
}
export async function onDisplayPictureModeChange(monitorId, codeRaw) {
const code = parseInt(codeRaw, 10);
if (Number.isNaN(code)) return;
try {
const r = await fetch(`/api/display/picture_mode/${monitorId}`, {
method: 'POST',
headers: { 'Content-Type': 'application/json', ...getAuthHeaders() },
body: JSON.stringify({ code })
});
const data = await r.json().catch(() => ({}));
if (data.success) showToast(t('display.msg.mode_changed'), 'success');
else showToast(t('display.msg.mode_failed'), 'error');
} catch (e) {
console.error('Failed to set picture mode:', e);
showToast(t('display.msg.mode_failed'), 'error');
}
}
export async function toggleDisplayPower(monitorId, monitorName) {
const btn = document.getElementById(`power-btn-${monitorId}`);
const isOn = btn && btn.classList.contains('on');
media_server/static/locales/en.json
+13
View File
@@ -161,6 +161,19 @@
"display.power_on": "Turn on",
"display.power_off": "Turn off",
"display.primary": "Primary",
"display.brightness": "Brightness",
"display.contrast": "Contrast",
"display.tuning": "Picture tuning",
"display.input_source": "Input",
"display.color_preset": "Color temp",
"display.picture_mode": "Picture mode",
"display.msg.contrast_failed": "Failed to set contrast",
"display.msg.input_changed": "Input source switched",
"display.msg.input_failed": "Failed to switch input source",
"display.msg.color_changed": "Color preset applied",
"display.msg.color_failed": "Failed to apply color preset",
"display.msg.mode_changed": "Picture mode applied",
"display.msg.mode_failed": "Failed to apply picture mode",
"browser.title": "Media Browser",
"browser.home": "Home",
"browser.manage_folders": "Manage Folders",
media_server/static/locales/ru.json
+13
View File
@@ -161,6 +161,19 @@
"display.power_on": "Включить",
"display.power_off": "Выключить",
"display.primary": "Основной",
"display.brightness": "Яркость",
"display.contrast": "Контраст",
"display.tuning": "Настройка изображения",
"display.input_source": "Вход",
"display.color_preset": "Цветовая температура",
"display.picture_mode": "Режим изображения",
"display.msg.contrast_failed": "Не удалось установить контраст",
"display.msg.input_changed": "Источник входа переключён",
"display.msg.input_failed": "Не удалось переключить источник",
"display.msg.color_changed": "Цветовая температура применена",
"display.msg.color_failed": "Не удалось применить цветовую температуру",
"display.msg.mode_changed": "Режим изображения применён",
"display.msg.mode_failed": "Не удалось применить режим изображения",
"browser.title": "Медиа Браузер",
"browser.home": "Главная",
"browser.manage_folders": "Управление папками",
scripts/restart-server.ps1
+94 -26
View File
@@ -1,35 +1,103 @@
# Restart the Media Server
# Stop any running instance
$procs = Get-Process -Name 'media-server' -ErrorAction SilentlyContinue
foreach ($p in $procs) {
Write-Host "Stopping server (PID $($p.Id))..."
Stop-Process -Id $p.Id -Force -ErrorAction SilentlyContinue
}
if ($procs) { Start-Sleep -Seconds 2 }
# Restart the Media Server.
#
# Robust against the two ways the server gets started:
# - Installer build: %LOCALAPPDATA%\Media Server\media-server.bat
# (runs as python.exe -m media_server.main)
# - Dev editable install: media-server console script on PATH
# (runs as media-server.exe)
#
# The old version of this script only killed processes named 'media-server',
# which silently missed the installer-bundled process (named 'python').
# This version kills whatever currently owns the listen port, so it doesn't
# matter how the previous instance was launched.
# Merge registry PATH with current PATH so newly-installed tools are visible
$regUser = [Environment]::GetEnvironmentVariable('PATH', 'User')
if ($regUser) {
$currentDirs = $env:PATH -split ';' | ForEach-Object { $_.TrimEnd('\') }
foreach ($dir in ($regUser -split ';')) {
if ($dir -and ($currentDirs -notcontains $dir.TrimEnd('\'))) {
$env:PATH = "$env:PATH;$dir"
}
param(
[ValidateSet('auto', 'dev', 'installer')]
[string]$Mode = 'auto',
[int]$Port = 8765
)
$InstallerLauncher = Join-Path $env:LOCALAPPDATA 'Media Server\media-server.bat'
$InstallerDir = Join-Path $env:LOCALAPPDATA 'Media Server'
# --- Resolve launch mode -----------------------------------------------------
if ($Mode -eq 'auto') {
if (Test-Path $InstallerLauncher) {
$Mode = 'installer'
} else {
$Mode = 'dev'
}
}
# Start server detached
Write-Host "Starting server..."
Start-Process -FilePath 'media-server' `
-WorkingDirectory 'c:\Users\Alexei\Documents\haos-integration-media-player\media-server' `
-WindowStyle Hidden
# --- Stop whatever is listening on the port ---------------------------------
$listenerPids = @()
try {
$conns = Get-NetTCPConnection -LocalPort $Port -State Listen -ErrorAction SilentlyContinue
if ($conns) {
$listenerPids = $conns | Select-Object -ExpandProperty OwningProcess -Unique
}
} catch {
# Get-NetTCPConnection unavailable (rare); fall back to netstat parsing
$listenerPids = & netstat -ano | Select-String ":$Port\s+.*LISTENING" | ForEach-Object {
($_ -split '\s+')[-1]
} | Sort-Object -Unique
}
foreach ($targetPid in $listenerPids) {
$proc = Get-Process -Id $targetPid -ErrorAction SilentlyContinue
if ($proc) {
Write-Host "Stopping listener PID $($proc.Id) ($($proc.ProcessName))..."
Stop-Process -Id $proc.Id -Force -ErrorAction SilentlyContinue
}
}
# Also kill any orphan media-server.exe instances that didn't bind the port.
$orphans = Get-Process -Name 'media-server' -ErrorAction SilentlyContinue
foreach ($p in $orphans) {
Write-Host "Stopping orphan media-server PID $($p.Id)..."
Stop-Process -Id $p.Id -Force -ErrorAction SilentlyContinue
}
if ($listenerPids -or $orphans) {
# Allow the OS to release the listen socket from TIME_WAIT.
Start-Sleep -Seconds 3
}
# --- Start the chosen flavour ------------------------------------------------
if ($Mode -eq 'installer') {
if (-not (Test-Path $InstallerLauncher)) {
Write-Error "Installer launcher not found: $InstallerLauncher"
exit 1
}
Write-Host "Starting installer build: $InstallerLauncher"
Start-Process -FilePath $InstallerLauncher `
-WorkingDirectory $InstallerDir `
-WindowStyle Hidden
} else {
# Merge registry PATH so newly-installed dev tools are visible.
$regUser = [Environment]::GetEnvironmentVariable('PATH', 'User')
if ($regUser) {
$currentDirs = $env:PATH -split ';' | ForEach-Object { $_.TrimEnd('\') }
foreach ($dir in ($regUser -split ';')) {
if ($dir -and ($currentDirs -notcontains $dir.TrimEnd('\'))) {
$env:PATH = "$env:PATH;$dir"
}
}
}
Write-Host "Starting dev install (PATH media-server)..."
Start-Process -FilePath 'media-server' `
-WorkingDirectory 'c:\Users\Alexei\Documents\haos-integration-media-player\media-server' `
-WindowStyle Hidden
}
Start-Sleep -Seconds 3
# Verify it's running
$check = Get-Process -Name 'media-server' -ErrorAction SilentlyContinue
if ($check) {
Write-Host "Server started (PID $($check[0].Id))"
# --- Verify it's listening ---------------------------------------------------
$verify = Get-NetTCPConnection -LocalPort $Port -State Listen -ErrorAction SilentlyContinue
if ($verify) {
$vpid = $verify[0].OwningProcess
$vproc = Get-Process -Id $vpid -ErrorAction SilentlyContinue
Write-Host "Server listening on port $Port (PID $vpid, $($vproc.ProcessName))"
} else {
Write-Host "WARNING: Server does not appear to be running!"
Write-Warning "Server is not listening on port $Port yet - check logs."
}