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punktfunk/crates/punktfunk-host/src/vdisplay/policy.rs
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feat(host,web): experimental DDC/CI monitor power-off for Exclusive sessions
The sole-virtual-display stutter investigation's active experiment: when the
Exclusive isolate deactivates a physical monitor, the dark-but-connected head
keeps getting serviced (monitor standby auto-input-scan / DP link churn) at a
seconds-scale cadence — the leading suspect for the periodic double-jolt. A
panel commanded off over DDC/CI (the VESA monitor-control channel in the video
cable) believes it has an owner and, on cooperating firmware, stops probing.

- New `ddc_power_off` display-policy axis (default off): orthogonal to presets
  like game_session, stored in display-settings.json, surfaced in GET/PUT
  /display/settings + the enforced list, carried through the layout transform.
- windows/ddc.rs: VCP 0xD6 power-mode control via the dxva2 Physical Monitor
  API. Deliberately DPMS-off (0x04, DDC stays responsive, signal return wakes)
  and never power-button-off (0x05, bricks-until-button on many monitors).
  Probe-before-write; every failure is skip-and-log — monitors without DDC/CI,
  OSD-disabled, or behind docks/KVMs degrade to a logged no-op.
- Manager wiring: panels commanded off immediately BEFORE the Exclusive CCD
  isolate (an HMONITOR — and with it the DDC channel — only exists while the
  display is active); teardown wakes them right after the CCD restore, where
  returning signal alone already wakes most firmware.
- Web console: an Experimental-badged on/off control on the display card,
  applied immediately like the game-session axis and preserved across preset
  switches; EN/DE strings incl. the wake-failure escape hatch (press the
  monitor's power button once, turn the option off).

Diagnostic value on top of the fix: if this kills a reporter's stutter, the
churn is monitor-firmware-initiated; if only topology=primary/extend does, the
driver services dark heads regardless — the two remaining root-cause classes.

Verified: Linux 258 tests + clippy + fmt clean; Windows (RTX box) 220/220 +
clippy clean; web tsc + production build clean; openapi.json regenerated.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-10 12:32:36 +02:00

838 lines
34 KiB
Rust

//! Virtual-display **management policy** — the user-configurable behavior surface for how virtual
//! displays are created, kept alive, and arranged (design: `design/display-management.md`).
//!
//! This is the pure config layer that sits **above** the per-compositor [`VirtualDisplay`](super)
//! backends: a small set of orthogonal options ([`DisplayPolicy`]) with safe defaults and named
//! [`Preset`]s, persisted to `<config>/display-settings.json` and editable from the web console.
//! The lifecycle/registry that *acts* on this policy lands in later stages; **Stage 0** (this file
//! plus the mgmt endpoints) stands up the surface and wires the two behaviors the existing code can
//! already express — the Windows monitor linger duration and the Linux "make the streamed output
//! the sole desktop" topology — through it.
//!
//! Precedence, mirroring the GPU preference (`console preference > env pin > default`): a present,
//! valid `display-settings.json` (console-written) **wins**; when it is absent the host keeps its
//! historical env-knob / default behavior untouched ([`DisplayPolicyStore::configured`] returns
//! `None`, and every Stage-0 call site falls back to exactly what it did before). The policy is
//! read at each acquire/teardown (file state, not a startup-frozen env var), so a console change
//! applies to the next connect without a host restart.
//!
//! The pure logic here — preset expansion, [`DisplayPolicy::effective`], the [`KeepAlive`] linger
//! resolution — is unit-tested; the store adds file I/O around it (the `gpu.rs` discipline:
//! private dir, temp-write + atomic rename, in-memory rollback on a failed write).
use std::collections::BTreeMap;
use std::path::PathBuf;
use std::sync::{Mutex, OnceLock};
use std::time::{Duration, SystemTime, UNIX_EPOCH};
use anyhow::Result;
use serde::{Deserialize, Serialize};
use sha2::{Digest, Sha256};
use utoipa::ToSchema;
/// How long a virtual display (and, on gamescope's bare spawn, the nested session + its game)
/// survives after the last client session detaches. Serialized as an object tagged on `mode`
/// (`{"mode":"off"}` / `{"mode":"duration","seconds":300}` / `{"mode":"forever"}`) so the web form
/// and the OpenAPI schema stay simple.
#[derive(Clone, Copy, Debug, PartialEq, Eq, Serialize, Deserialize, ToSchema)]
#[serde(tag = "mode", rename_all = "snake_case")]
pub enum KeepAlive {
/// Tear the display down at session end (today's default on every backend but Windows, which
/// lingers 10 s).
Off,
/// Keep the display for `seconds` after the last session leaves, then tear it down; a reconnect
/// inside the window reuses it.
Duration {
/// Linger window in seconds.
seconds: u32,
},
/// Keep the display until host shutdown or an explicit release (the `Pinned` lifecycle state).
/// **Not honored until the display-lifecycle stage** — rejected by the mgmt PUT at Stage 0.
Forever,
}
impl Default for KeepAlive {
fn default() -> Self {
// The historical Windows behavior, made explicit; the Linux backends had no linger and map
// `Off`/short-duration onto their (nonexistent) keep-alive as a no-op until the lifecycle stage.
KeepAlive::Duration { seconds: 10 }
}
}
/// Resolved linger for the display lifecycle: teardown immediately, after a fixed window, or never.
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub enum Linger {
/// Tear down as soon as the last session leaves.
Immediate,
/// Linger for this window, then tear down.
For(Duration),
/// Never auto-tear-down (Pinned).
Forever,
}
impl KeepAlive {
/// The [`Linger`] this keep-alive resolves to.
pub fn linger(self) -> Linger {
match self {
KeepAlive::Off => Linger::Immediate,
KeepAlive::Duration { seconds } => Linger::For(Duration::from_secs(seconds as u64)),
KeepAlive::Forever => Linger::Forever,
}
}
}
/// What the host does to the box's display topology while managed virtual displays are up.
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Serialize, Deserialize, ToSchema)]
#[serde(rename_all = "snake_case")]
pub enum Topology {
/// Today's behavior, resolved per host at acquire time (see [`super::effective_topology`]):
/// exclusive on Windows and the auto-detected Linux desktop path, extend under an explicit
/// `PUNKTFUNK_COMPOSITOR` pin.
#[default]
Auto,
/// Add the virtual display(s); touch nothing else.
Extend,
/// Make the group's primary virtual display the OS primary; physical outputs stay enabled.
Primary,
/// The managed virtual displays become the only enabled outputs (physical outputs disabled,
/// restored on teardown).
Exclusive,
}
/// Admission when a *different* client connects while a display/session is already live and asks for
/// a different mode. Stored at Stage 0; enforced from the mode-conflict admission stage.
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Serialize, Deserialize, ToSchema)]
#[serde(rename_all = "snake_case")]
pub enum ModeConflict {
/// Give the new client its own virtual display on the same desktop (today's Linux multi-view).
#[default]
Separate,
/// Stop the existing session(s), tear down / reconfigure, serve the new client.
Steal,
/// Admit the new client at the live display's mode (the honest-downgrade convention).
Join,
/// Refuse the new client with a clear handshake error.
Reject,
}
/// Stable display identity, so desktop environments persist per-display config (KDE scaling). Stored
/// at Stage 0; carriers wired from the identity stage.
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Serialize, Deserialize, ToSchema)]
#[serde(rename_all = "kebab-case")]
pub enum Identity {
/// One identity for everything (today's Linux behavior).
Shared,
/// One identity per paired client cert fingerprint (today's Windows behavior).
#[default]
PerClient,
/// One identity per (client, resolution) — distinct scaling per resolution, at the cost of
/// identity slots.
PerClientMode,
}
/// How group members are arranged in the desktop coordinate space. Stored at Stage 0; applied from
/// the multi-monitor stage.
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Serialize, Deserialize, ToSchema)]
#[serde(rename_all = "kebab-case")]
pub enum LayoutMode {
/// Left-to-right in acquire order, top-aligned (deterministic default).
#[default]
AutoRow,
/// Per-identity-slot offsets from [`Layout::positions`] (console-arranged).
Manual,
}
/// A desktop-space offset for a display (top-left origin).
#[derive(Clone, Copy, Debug, PartialEq, Eq, Serialize, Deserialize, ToSchema)]
pub struct Position {
pub x: i32,
pub y: i32,
}
/// Group layout: the arrangement mode plus, for [`LayoutMode::Manual`], per-slot offsets keyed by
/// identity-slot id (string keys for stable JSON).
#[derive(Clone, Debug, Default, PartialEq, Eq, Serialize, Deserialize, ToSchema)]
pub struct Layout {
#[serde(default)]
pub mode: LayoutMode,
#[serde(default)]
pub positions: BTreeMap<String, Position>,
}
/// How a session that **launches a game** (a library id on the Hello / apps.json / Decky pin) is
/// served (`design/gamemode-and-dedicated-sessions.md` §5.2). Orthogonal to the preset/lifecycle axes
/// — a top-level [`DisplayPolicy`] field, NOT part of [`EffectivePolicy`], so a preset never clobbers
/// it. Linux-only in effect (a launching Windows session opens into the one desktop).
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Serialize, Deserialize, ToSchema)]
#[serde(rename_all = "snake_case")]
pub enum GameSession {
/// Today's routing: the launch rides whatever session the box is in (managed Steam session on
/// Bazzite/SteamOS, bare spawn on plain distros, spawned into the live desktop on KWin/Mutter/wlroots).
#[default]
Auto,
/// A launching session always gets its OWN headless gamescope at the client's mode, nesting just
/// the game — no Steam Big Picture, no game mode. Degrades to `auto` when gamescope is unavailable.
Dedicated,
}
/// A named bundle of the fields below. `Custom` (the default) means the explicit fields rule; any
/// other preset ignores the stored fields and expands to its own ([`DisplayPolicy::effective`]).
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Serialize, Deserialize, ToSchema)]
#[serde(rename_all = "kebab-case")]
pub enum Preset {
/// The explicit fields below define the policy.
#[default]
Custom,
/// Today's behavior, made explicit.
Default,
/// Dedicated headless/couch box: displays + game survive disconnects; whoever connects takes over.
GamingRig,
/// A desktop someone also uses physically: never blank the real monitors, never keep ghosts.
SharedDesktop,
/// One user at a time with fast reattach; a second user is told the box is busy.
Hotdesk,
/// The multi-monitor daily driver: manual arrangement, per-client identity, exclusive.
Workstation,
}
/// The user-facing display-management policy — what `display-settings.json` holds and what the mgmt
/// API GETs/PUTs. When [`preset`](Self::preset) is not [`Preset::Custom`] the explicit fields are
/// ignored (the console writes one or the other); [`effective`](Self::effective) resolves both to a
/// single [`EffectivePolicy`].
#[derive(Clone, Debug, PartialEq, Eq, Serialize, Deserialize, ToSchema)]
pub struct DisplayPolicy {
/// Schema version (currently 1) — lets a future field addition migrate rather than reject.
#[serde(default = "one")]
pub version: u32,
#[serde(default)]
pub preset: Preset,
#[serde(default)]
pub keep_alive: KeepAlive,
#[serde(default)]
pub topology: Topology,
#[serde(default)]
pub mode_conflict: ModeConflict,
#[serde(default)]
pub identity: Identity,
#[serde(default)]
pub layout: Layout,
/// Upper bound on simultaneously-live virtual displays (clamped to `1..=16` on write).
#[serde(default = "default_max_displays")]
pub max_displays: u32,
/// How a game-launching session is served (`design/gamemode-and-dedicated-sessions.md` §5.2).
/// Orthogonal to `preset`/lifecycle — preserved across preset changes; `#[serde(default)]` = `Auto`
/// so existing `display-settings.json` files are untouched.
#[serde(default)]
pub game_session: GameSession,
/// EXPERIMENTAL (Windows): command physical monitors' panels off over DDC/CI (VCP 0xD6 →
/// DPMS off) right before an `Exclusive` isolate deactivates them, and back on at restore.
/// Targets the "connected-but-dark head" periodic-stutter class (monitor standby
/// auto-input-scan / DP link churn while the virtual display is the sole active display) at
/// the monitor-firmware level. Best-effort — monitors without DDC/CI (or with it disabled in
/// the OSD) are skipped. Orthogonal to `preset` (like `game_session`): preserved across
/// preset changes; `#[serde(default)]` = off so existing `display-settings.json` files are
/// untouched.
#[serde(default)]
pub ddc_power_off: bool,
}
fn one() -> u32 {
1
}
fn default_max_displays() -> u32 {
4
}
impl Default for DisplayPolicy {
fn default() -> Self {
// Bit-for-bit today's behavior (the `default` preset expanded), so an unconfigured host reads
// the same policy the Stage-0 call sites already produce.
DisplayPolicy {
version: 1,
preset: Preset::Custom,
keep_alive: KeepAlive::default(),
topology: Topology::Auto,
mode_conflict: ModeConflict::default(),
identity: Identity::default(),
layout: Layout::default(),
max_displays: 4,
game_session: GameSession::default(),
ddc_power_off: false,
}
}
}
/// The six resolved fields after preset expansion — what the lifecycle/registry and the Stage-0 call
/// sites read, and what the mgmt API echoes as the "currently in force" policy. Pure output of
/// [`DisplayPolicy::effective`].
#[derive(Clone, Debug, PartialEq, Eq, Serialize, Deserialize, ToSchema)]
pub struct EffectivePolicy {
pub keep_alive: KeepAlive,
pub topology: Topology,
pub mode_conflict: ModeConflict,
pub identity: Identity,
pub layout: Layout,
pub max_displays: u32,
}
impl DisplayPolicy {
/// Resolve to the [`EffectivePolicy`]: a named preset expands to its bundle; `Custom` uses the
/// explicit fields. Pure — the single source of truth shared by the preset docs and the runtime.
pub fn effective(&self) -> EffectivePolicy {
if let Some(mut e) = preset_fields(self.preset) {
// A preset fixes the six behavior fields but honors an explicit manual layout table
// (positions are data, not behavior — the `workstation` preset only sets the *mode*).
if self.preset == Preset::Workstation && !self.layout.positions.is_empty() {
e.layout.positions = self.layout.positions.clone();
}
e
} else {
EffectivePolicy {
keep_alive: self.keep_alive,
topology: self.topology,
mode_conflict: self.mode_conflict,
identity: self.identity,
layout: self.layout.clone(),
max_displays: self.max_displays,
}
}
}
/// Clamp fields to their valid ranges (called on write). `max_displays` to `1..=16` (the
/// pf-vdisplay connector ceiling / a sane Linux bound).
pub fn sanitized(mut self) -> Self {
self.version = 1;
self.max_displays = self.max_displays.clamp(1, 16);
self
}
}
impl EffectivePolicy {
/// Build a persistable `Custom` [`DisplayPolicy`] that keeps THIS effective behavior but replaces
/// the arrangement with a **manual** layout at `positions` — the `/display/layout` endpoint's
/// transform, factored out pure so arranging displays stays orthogonal to the other axes and is
/// unit-tested without touching the global store. (`Custom` so the explicit fields — incl. the new
/// layout — rule; a named preset would ignore them.)
pub fn with_manual_layout(
&self,
positions: BTreeMap<String, Position>,
game_session: GameSession,
ddc_power_off: bool,
) -> DisplayPolicy {
DisplayPolicy {
version: 1,
preset: Preset::Custom,
keep_alive: self.keep_alive,
topology: self.topology,
mode_conflict: self.mode_conflict,
identity: self.identity,
layout: Layout {
mode: LayoutMode::Manual,
positions,
},
max_displays: self.max_displays,
// Preserve the orthogonal axes (EffectivePolicy doesn't carry them).
game_session,
ddc_power_off,
}
}
}
/// The field bundle a named preset expands to; `None` for [`Preset::Custom`]. The single expansion
/// table — the docs' preset table mirrors this and the `presets_match_doc` test guards the shape.
pub fn preset_fields(preset: Preset) -> Option<EffectivePolicy> {
let base = |keep_alive, topology, mode_conflict, identity, layout_mode| EffectivePolicy {
keep_alive,
topology,
mode_conflict,
identity,
layout: Layout {
mode: layout_mode,
positions: BTreeMap::new(),
},
max_displays: 4,
};
Some(match preset {
Preset::Custom => return None,
Preset::Default => base(
KeepAlive::Duration { seconds: 10 },
Topology::Auto,
ModeConflict::Separate,
Identity::PerClient,
LayoutMode::AutoRow,
),
Preset::GamingRig => base(
KeepAlive::Forever,
Topology::Exclusive,
ModeConflict::Steal,
Identity::PerClient,
LayoutMode::AutoRow,
),
Preset::SharedDesktop => base(
KeepAlive::Off,
Topology::Extend,
ModeConflict::Separate,
Identity::PerClient,
LayoutMode::AutoRow,
),
Preset::Hotdesk => base(
KeepAlive::Duration { seconds: 300 },
Topology::Exclusive,
ModeConflict::Reject,
Identity::PerClientMode,
LayoutMode::AutoRow,
),
Preset::Workstation => base(
KeepAlive::Duration { seconds: 300 },
Topology::Exclusive,
ModeConflict::Separate,
Identity::PerClient,
LayoutMode::Manual,
),
})
}
/// The persisted policy store: the loaded file value (or `None` when no file exists) behind its
/// JSON path. Mirrors [`crate::gpu::GpuPrefStore`] — private dir, temp-write + atomic rename,
/// in-memory rollback if the disk write fails.
pub struct DisplayPolicyStore {
path: PathBuf,
/// `Some` only when a valid `display-settings.json` was loaded / written — the "console has
/// configured this host" signal that gates whether Stage-0 call sites override their historical
/// env/default behavior.
cur: Mutex<Option<DisplayPolicy>>,
}
impl DisplayPolicyStore {
/// Load from `path`. A missing file ⇒ unconfigured (`None`); a corrupt file ⇒ unconfigured with a
/// warning (never fail host startup over a settings file).
pub fn load_from(path: PathBuf) -> Self {
let cur = match std::fs::read(&path) {
Ok(bytes) => match serde_json::from_slice::<DisplayPolicy>(&bytes) {
Ok(p) => Some(p),
Err(e) => {
tracing::warn!(path = %path.display(),
"display-settings.json unreadable — using built-in defaults: {e}");
None
}
},
Err(_) => None,
};
DisplayPolicyStore {
path,
cur: Mutex::new(cur),
}
}
/// The stored policy, or [`DisplayPolicy::default`] when unconfigured (for the mgmt GET).
pub fn get(&self) -> DisplayPolicy {
self.cur.lock().unwrap().clone().unwrap_or_default()
}
/// The console-configured policy, or `None` when no settings file exists. Stage-0 call sites use
/// this to decide whether to override their historical behavior (`None` ⇒ leave it untouched).
pub fn configured(&self) -> Option<DisplayPolicy> {
self.cur.lock().unwrap().clone()
}
/// The effective (preset-expanded) policy the console configured, or `None` when unconfigured.
pub fn configured_effective(&self) -> Option<EffectivePolicy> {
self.configured().map(|p| p.effective())
}
/// The game-session routing axis (`design/gamemode-and-dedicated-sessions.md` §5.2). Orthogonal to
/// the preset — read directly off the stored policy (or the default `Auto` when unconfigured), so a
/// preset selection never resets it.
pub fn game_session(&self) -> GameSession {
self.get().game_session
}
/// The experimental DDC/CI panel-off axis — orthogonal to the preset (like
/// [`Self::game_session`]), read directly off the stored policy (default off when
/// unconfigured).
pub fn ddc_power_off(&self) -> bool {
self.get().ddc_power_off
}
/// Persist + adopt a new policy (sanitized first). The in-memory value changes only if the disk
/// write succeeds, so a full disk can't leave memory and file disagreeing.
pub fn set(&self, policy: DisplayPolicy) -> Result<()> {
let policy = policy.sanitized();
if let Some(dir) = self.path.parent() {
crate::gamestream::create_private_dir(dir)?;
}
let tmp = self.path.with_extension("json.tmp");
crate::gamestream::write_secret_file(&tmp, &serde_json::to_vec_pretty(&policy)?)?;
std::fs::rename(&tmp, &self.path)?;
*self.cur.lock().unwrap() = Some(policy);
Ok(())
}
}
/// The process-wide display-policy store (config-dir file), loaded once on first access — the same
/// global-accessor shape as [`crate::gpu::prefs`], because display setup happens deep in the
/// capture/vdisplay path where no app state is threaded.
pub fn prefs() -> &'static DisplayPolicyStore {
static STORE: OnceLock<DisplayPolicyStore> = OnceLock::new();
STORE.get_or_init(|| {
DisplayPolicyStore::load_from(crate::gamestream::config_dir().join("display-settings.json"))
})
}
// ---------------------------------------------------------------------------------------
// User-defined custom presets (`<config>/display-presets.json`)
// ---------------------------------------------------------------------------------------
/// A user-defined named preset: a saved bundle of the six display-behavior axes (exactly what a
/// built-in [`Preset`] expands to) plus the orthogonal game-session axis, that the operator names
/// and applies from the console.
///
/// Unlike the built-in [`Preset`]s (a closed enum), custom presets are **data** — a catalog stored in
/// `<config>/display-presets.json`. Applying one writes a `Custom` [`DisplayPolicy`] carrying these
/// fields (the console reuses `PUT /display/settings`), so [`DisplayPolicy::effective`] stays pure and
/// the built-in set is never touched. The catalog is decoupled from the active `display-settings.json`:
/// editing or deleting a preset never mutates the running policy (re-apply to adopt a change).
#[derive(Clone, Debug, PartialEq, Eq, Serialize, Deserialize, ToSchema)]
pub struct CustomPreset {
/// Host-assigned, stable for the life of the entry (the `{id}` in the CRUD path).
pub id: String,
/// User-facing name shown on the preset card; editable.
pub name: String,
/// The six display-behavior axes this preset applies (the same shape a built-in preset expands to).
pub fields: EffectivePolicy,
/// The game-session routing this preset applies (orthogonal to the six axes; see [`GameSession`]).
/// A custom preset captures the operator's *full* setup, so — unlike a built-in preset — applying
/// one does set this axis.
#[serde(default)]
pub game_session: GameSession,
}
/// Request body to create or replace a custom preset (no `id` — the host owns it).
#[derive(Clone, Debug, Deserialize, ToSchema)]
pub struct CustomPresetInput {
pub name: String,
pub fields: EffectivePolicy,
#[serde(default)]
pub game_session: GameSession,
}
fn custom_presets_path() -> PathBuf {
crate::gamestream::config_dir().join("display-presets.json")
}
/// Clamp a saved preset's fields to their valid ranges — the same bounds [`DisplayPolicy::sanitized`]
/// enforces, so a preset can never carry an out-of-range `max_displays` that a later apply would reject.
fn sanitize_preset_fields(mut fields: EffectivePolicy) -> EffectivePolicy {
fields.max_displays = fields.max_displays.clamp(1, 16);
fields
}
/// Load the saved custom presets (empty + non-fatal if the file is absent or malformed — a bad
/// catalog never breaks the console's settings GET).
pub fn load_custom_presets() -> Vec<CustomPreset> {
match std::fs::read(custom_presets_path()) {
Ok(bytes) => serde_json::from_slice(&bytes).unwrap_or_else(|e| {
tracing::warn!(error = %e, "display-presets.json malformed — ignoring custom presets");
Vec::new()
}),
Err(_) => Vec::new(),
}
}
/// Persist the catalog (private dir, temp-write + atomic rename — the [`DisplayPolicyStore::set`]
/// discipline, so a crash mid-write never truncates it).
fn save_custom_presets(presets: &[CustomPreset]) -> Result<()> {
let path = custom_presets_path();
if let Some(dir) = path.parent() {
crate::gamestream::create_private_dir(dir)?;
}
let tmp = path.with_extension("json.tmp");
crate::gamestream::write_secret_file(&tmp, &serde_json::to_vec_pretty(presets)?)?;
std::fs::rename(&tmp, &path)?;
Ok(())
}
/// 12 hex chars from the name + wall-clock nanos — collision-free in practice, no uuid dep (the
/// [`crate::library`] custom-entry id scheme).
fn new_preset_id(name: &str) -> String {
let nanos = SystemTime::now()
.duration_since(UNIX_EPOCH)
.map(|d| d.as_nanos())
.unwrap_or(0);
hex::encode(&Sha256::digest(format!("{name}:{nanos}").as_bytes())[..6])
}
/// Create a custom preset, returning it with its assigned id.
pub fn add_custom_preset(input: CustomPresetInput) -> Result<CustomPreset> {
let mut presets = load_custom_presets();
let preset = CustomPreset {
id: new_preset_id(&input.name),
name: input.name,
fields: sanitize_preset_fields(input.fields),
game_session: input.game_session,
};
presets.push(preset.clone());
save_custom_presets(&presets)?;
Ok(preset)
}
/// Replace a custom preset's fields (id preserved). `None` ⇒ no preset with that id.
pub fn update_custom_preset(id: &str, input: CustomPresetInput) -> Result<Option<CustomPreset>> {
let mut presets = load_custom_presets();
let Some(slot) = presets.iter_mut().find(|p| p.id == id) else {
return Ok(None);
};
slot.name = input.name;
slot.fields = sanitize_preset_fields(input.fields);
slot.game_session = input.game_session;
let updated = slot.clone();
save_custom_presets(&presets)?;
Ok(Some(updated))
}
/// Delete a custom preset. `false` ⇒ no preset with that id.
pub fn delete_custom_preset(id: &str) -> Result<bool> {
let mut presets = load_custom_presets();
let before = presets.len();
presets.retain(|p| p.id != id);
if presets.len() == before {
return Ok(false);
}
save_custom_presets(&presets)?;
Ok(true)
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn custom_preset_serde_roundtrips_and_defaults_game_session() {
let preset = CustomPreset {
id: "abc123".into(),
name: "My Rig".into(),
fields: preset_fields(Preset::GamingRig).unwrap(),
game_session: GameSession::Dedicated,
};
let json = serde_json::to_string(&preset).unwrap();
assert_eq!(serde_json::from_str::<CustomPreset>(&json).unwrap(), preset);
// A catalog written before `game_session` existed still loads (defaults to `Auto`).
let legacy: CustomPreset = serde_json::from_value(serde_json::json!({
"id": "x",
"name": "Legacy",
"fields": serde_json::to_value(preset_fields(Preset::Default).unwrap()).unwrap(),
}))
.unwrap();
assert_eq!(legacy.game_session, GameSession::Auto);
}
#[test]
fn sanitize_preset_fields_clamps_max_displays() {
let mut f = preset_fields(Preset::Default).unwrap();
f.max_displays = 999;
assert_eq!(sanitize_preset_fields(f.clone()).max_displays, 16);
f.max_displays = 0;
assert_eq!(sanitize_preset_fields(f).max_displays, 1);
}
#[test]
fn keep_alive_serializes_tagged_on_mode() {
assert_eq!(
serde_json::to_value(KeepAlive::Duration { seconds: 300 }).unwrap(),
serde_json::json!({ "mode": "duration", "seconds": 300 })
);
assert_eq!(
serde_json::to_value(KeepAlive::Off).unwrap(),
serde_json::json!({ "mode": "off" })
);
assert_eq!(
serde_json::to_value(KeepAlive::Forever).unwrap(),
serde_json::json!({ "mode": "forever" })
);
// Round-trips.
for k in [
KeepAlive::Off,
KeepAlive::Duration { seconds: 42 },
KeepAlive::Forever,
] {
let s = serde_json::to_string(&k).unwrap();
assert_eq!(serde_json::from_str::<KeepAlive>(&s).unwrap(), k);
}
}
#[test]
fn keep_alive_linger_resolution() {
assert_eq!(KeepAlive::Off.linger(), Linger::Immediate);
assert_eq!(
KeepAlive::Duration { seconds: 30 }.linger(),
Linger::For(Duration::from_secs(30))
);
assert_eq!(KeepAlive::Forever.linger(), Linger::Forever);
}
#[test]
fn default_policy_is_todays_behavior() {
let e = DisplayPolicy::default().effective();
assert_eq!(e.keep_alive, KeepAlive::Duration { seconds: 10 });
assert_eq!(e.topology, Topology::Auto);
assert_eq!(e.mode_conflict, ModeConflict::Separate);
assert_eq!(e.identity, Identity::PerClient);
assert_eq!(e.layout.mode, LayoutMode::AutoRow);
}
#[test]
fn custom_uses_explicit_fields_presets_override_them() {
// Custom: explicit fields flow through.
let p = DisplayPolicy {
preset: Preset::Custom,
keep_alive: KeepAlive::Off,
topology: Topology::Extend,
..DisplayPolicy::default()
};
assert_eq!(p.effective().keep_alive, KeepAlive::Off);
assert_eq!(p.effective().topology, Topology::Extend);
// A named preset ignores the explicit fields.
let p = DisplayPolicy {
preset: Preset::GamingRig,
keep_alive: KeepAlive::Off, // ignored
topology: Topology::Extend, // ignored
..DisplayPolicy::default()
};
let e = p.effective();
assert_eq!(e.keep_alive, KeepAlive::Forever);
assert_eq!(e.topology, Topology::Exclusive);
assert_eq!(e.mode_conflict, ModeConflict::Steal);
}
#[test]
fn workstation_preset_keeps_manual_layout_positions() {
let mut positions = BTreeMap::new();
positions.insert("1".to_string(), Position { x: 2560, y: 0 });
let p = DisplayPolicy {
preset: Preset::Workstation,
layout: Layout {
mode: LayoutMode::AutoRow, // preset forces Manual regardless
positions,
},
..DisplayPolicy::default()
};
let e = p.effective();
assert_eq!(e.layout.mode, LayoutMode::Manual);
assert_eq!(
e.layout.positions.get("1"),
Some(&Position { x: 2560, y: 0 })
);
}
#[test]
fn every_preset_expands() {
for preset in [
Preset::Default,
Preset::GamingRig,
Preset::SharedDesktop,
Preset::Hotdesk,
Preset::Workstation,
] {
assert!(preset_fields(preset).is_some(), "{preset:?} must expand");
}
assert!(preset_fields(Preset::Custom).is_none());
}
#[test]
fn sanitize_clamps_max_displays_and_pins_version() {
let p = DisplayPolicy {
version: 99,
max_displays: 0,
..DisplayPolicy::default()
}
.sanitized();
assert_eq!(p.version, 1);
assert_eq!(p.max_displays, 1);
let p = DisplayPolicy {
max_displays: 999,
..DisplayPolicy::default()
}
.sanitized();
assert_eq!(p.max_displays, 16);
}
#[test]
fn with_manual_layout_preserves_behavior_and_sets_positions() {
// Start from a preset's effective behavior (workstation: 5-min linger, exclusive, per-client).
let eff = DisplayPolicy {
preset: Preset::Workstation,
..DisplayPolicy::default()
}
.effective();
let mut positions = BTreeMap::new();
positions.insert("1".to_string(), Position { x: 0, y: 0 });
positions.insert("7".to_string(), Position { x: 2560, y: 0 });
let p = eff.with_manual_layout(positions, GameSession::Dedicated, true);
// The orthogonal axes (game-session, DDC power-off) are preserved through the transform.
assert_eq!(p.game_session, GameSession::Dedicated);
assert!(p.ddc_power_off);
// Preset drops to Custom so the explicit fields (incl. the layout) rule…
assert_eq!(p.preset, Preset::Custom);
// …every other behavior axis is preserved verbatim…
assert_eq!(p.keep_alive, eff.keep_alive);
assert_eq!(p.topology, eff.topology);
assert_eq!(p.mode_conflict, eff.mode_conflict);
assert_eq!(p.identity, eff.identity);
assert_eq!(p.max_displays, eff.max_displays);
// …and the arrangement is the manual layout we asked for, surviving the effective round-trip.
let e2 = p.effective();
assert_eq!(e2.layout.mode, LayoutMode::Manual);
let want = Position { x: 2560, y: 0 };
assert_eq!(e2.layout.positions.get("7"), Some(&want));
}
#[test]
fn partial_json_fills_defaults() {
// A hand-written file with only a couple of fields loads, the rest defaulting.
let p: DisplayPolicy =
serde_json::from_str(r#"{ "preset": "custom", "max_displays": 2 }"#).unwrap();
assert_eq!(p.max_displays, 2);
assert_eq!(p.keep_alive, KeepAlive::default());
assert_eq!(p.topology, Topology::Auto);
assert_eq!(p.version, 1);
// A file written before the experimental DDC axis existed defaults it OFF.
assert!(!p.ddc_power_off);
}
#[test]
fn store_roundtrips_and_gates_on_file_presence() {
let dir = std::env::temp_dir().join(format!("pf-disp-{}", std::process::id()));
let _ = std::fs::create_dir_all(&dir);
let path = dir.join("display-settings.json");
let _ = std::fs::remove_file(&path);
let store = DisplayPolicyStore::load_from(path.clone());
// Unconfigured: get() yields defaults, configured() is None.
assert!(store.configured().is_none());
assert_eq!(store.get(), DisplayPolicy::default());
// After a write the file gates flip to configured.
let want = DisplayPolicy {
preset: Preset::SharedDesktop,
..DisplayPolicy::default()
};
store.set(want.clone()).unwrap();
assert_eq!(
store.configured().as_ref().map(|p| p.preset),
Some(Preset::SharedDesktop)
);
assert_eq!(
store.configured_effective().unwrap().keep_alive,
KeepAlive::Off
);
// A fresh store reading the same path sees the persisted value.
let reopened = DisplayPolicyStore::load_from(path.clone());
assert_eq!(reopened.configured().unwrap().preset, Preset::SharedDesktop);
let _ = std::fs::remove_file(&path);
}
}