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feat(explorer+daemon): discovery dinamico via broker + query socket

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Cierra el "explorer encuentra al daemon de forma totalmente dinamica"
del meta-plan. La UI deja de hardcodear el socket admin: descubre al
daemon nouser via MatchEvent::Available del broker y le consulta sus
Monadas directo.

Pipeline end-to-end:
- Daemon publica engine Card con service_socket = $XDG_RUNTIME_DIR/
  nouser-engine.sock y flow.output = monad-list:json.
- Daemon binda Unix socket en ese path con listener blocking que
  sirve nouser_card::query::QueryRequest::ListMonads, responde
  ListMonadsResponse { engine, monads: Vec<MonadView> }.
- Explorer construye consumer Card con flow.input matched,
  brahman_sidecar::await_provider_blocking le devuelve el socket,
  y nouser_core::engine_socket::client::list_monads lo consulta.
- Cachea el socket; cualquier fallo de query lo invalida y la
  proxima iteracion re-descubre.

Wire types nuevos en nouser_card::query:
- QueryRequest::ListMonads
- ListMonadsResponse { engine: EngineInfo, monads: Vec<MonadView> }
- MonadView: proyeccion slim de MonadManifest SIN centroid ni
  members (KB que no tienen por que viajar cada poll).
- transport::default_socket_path() con env override.

Listener en nouser_core::engine_socket: spawn_listener + client
blocking con QueryError tipado. 3 tests integracion verdes.

Refactor explorer:
- Drop dep brahman-admin, add brahman-sidecar/nouser-card/nouser-core.
- State: socket cache + snapshot + socket_source informativo.
- TickOutcome enum desacopla la I/O del UI.

Trade-offs: polling 2s (no streaming — broker no empuja Data cards
hoy), re-discovery full en error (discovery es barato).

Tests: 10 (nouser-card +3 query) + 27 (nouser-core +3 engine_socket)
+ 4 (sidecar) verdes. Explorer compila clean.
This commit is contained in:
Sergio
2026-05-09 03:08:20 +00:00
parent b23ddf2980
commit 2ae888bc8f
9 changed files with 871 additions and 146 deletions
Download Patch File Download Diff File Expand all files Collapse all files
crates/apps/nouser-explorer/Cargo.toml
+4 -2
View File
@@ -3,11 +3,13 @@ name = "nouser-explorer"
version.workspace = true
edition.workspace = true
license.workspace = true
description = "Explorador GPUI de Mónadas: panel que consulta brahman-admin y renderea las sesiones como cards."
description = "Explorador GPUI de Mónadas: panel que descubre al daemon nouser vía broker brahman y consulta sus Mónadas dinámicamente."
[dependencies]
brahman-admin = { path = "../../core/brahman-admin" }
brahman-card = { path = "../../core/brahman-card" }
brahman-sidecar = { path = "../../shared/brahman-sidecar" }
nouser-card = { path = "../../modules/nouser/card" }
nouser-core = { path = "../../modules/nouser/core" }
gpui = { workspace = true }
[[bin]]
crates/apps/nouser-explorer/src/main.rs
+227 -136
View File
@@ -1,29 +1,38 @@
//! `nouser-explorer` — panel GPUI que muestra las Mónadas (y demás
//! sesiones) registradas en el Init brahman.
//! `nouser-explorer` — panel GPUI que descubre al daemon `nouser`
//! vía broker brahman y muestra sus Mónadas en vivo.
//!
//! Diseño: ventana standalone que cada N segundos consulta el socket
//! admin (`brahman_admin::client::query_blocking`) y renderea las
//! sesiones como cards. Sin integración con yahweh-shell — es su
//! propio binario para que el ecosistema sea visible incluso sin la
//! shell completa.
//! Diseño: ventana standalone que cada N segundos consulta el query
//! socket del daemon (`nouser_core::engine_socket::client::list_monads`).
//! El path del socket NO está hardcoded — se descubre vía
//! `brahman_sidecar::await_provider_blocking` para el flow
//! `monad-list:json`. Si el daemon cae, el socket cacheado se invalida
//! y la próxima iteración re-descubre.
//!
//! Sin integración con yahweh-shell — es su propio binario para que el
//! ecosistema sea visible incluso sin la shell completa.
//!
//! Uso:
//! ```sh
//! cargo run -p nouser-explorer
//! # con override de socket admin:
//! BRAHMAN_ADMIN_SOCKET=/tmp/brahman-admin.sock cargo run -p nouser-explorer
//! # con override del init socket (heredado de brahman-handshake):
//! BRAHMAN_INIT_SOCKET=/tmp/init.sock cargo run -p nouser-explorer
//! ```
use std::path::PathBuf;
use std::time::Duration;
use brahman_admin::{client::query_blocking, transport, StatusSnapshot};
use brahman_card::CardKind;
use brahman_sidecar::{await_provider_blocking, build_consumer_card, ConsumerError};
use gpui::{
div, prelude::*, px, rgb, App, Application, Bounds, Context, IntoElement, Render, SharedString,
Window, WindowBounds, WindowOptions,
};
use nouser_card::query::{ListMonadsResponse, FLOW_MONAD_LIST, FLOW_TYPE_NAME};
use nouser_card::Lens;
use nouser_core::engine_socket::client as query_client;
const REFRESH_INTERVAL: Duration = Duration::from_secs(2);
const DISCOVERY_TIMEOUT: Duration = Duration::from_secs(3);
const QUERY_TIMEOUT: Duration = Duration::from_secs(2);
fn main() {
Application::new().run(|cx: &mut App| {
@@ -44,35 +53,52 @@ fn main() {
});
}
/// Vista raíz: contiene el último snapshot recibido y el último error.
/// Vista raíz: cachea el socket descubierto, el último snapshot y el
/// último error. El socket cacheado se invalida ante cualquier fallo
/// de query, forzando re-discovery en la próxima iteración.
struct Explorer {
snapshot: Option<StatusSnapshot>,
socket: Option<PathBuf>,
snapshot: Option<ListMonadsResponse>,
error: Option<SharedString>,
/// Última fuente del socket activo: "discovery" (vía broker) o
/// "cache" (reusando el de la iteración anterior). Sólo informativo.
socket_source: Option<&'static str>,
}
impl Explorer {
fn new(cx: &mut Context<Self>) -> Self {
// Loop de refresh: cada `REFRESH_INTERVAL`, query al admin y
// actualiza el modelo. `cx.spawn` corre en el GPUI executor;
// el `query_blocking` sí bloquea pero sólo brevemente — admin
// responde con un snapshot pequeño.
// Loop de refresh: cada `REFRESH_INTERVAL`:
// 1. Si no tenemos socket cacheado → discovery vía broker.
// 2. Si tenemos → query directo. Fallo → invalida cache.
cx.spawn(async move |this, cx| {
let timer = cx.background_executor().clone();
loop {
let path = transport::default_socket_path();
let result = query_blocking(&path);
let prior_socket = this
.read_with(cx, |me, _| me.socket.clone())
.ok()
.flatten();
let result = tick(prior_socket);
let _ = this.update(cx, |me, cx| {
match result {
Ok(snap) => {
me.snapshot = Some(snap);
TickOutcome::Ok { socket, source, snapshot } => {
me.socket = Some(socket);
me.socket_source = Some(source);
me.snapshot = Some(snapshot);
me.error = None;
}
Err(e) => {
me.error = Some(SharedString::from(format!(
"no conectado a {}: {}",
path.display(),
e
)));
TickOutcome::DiscoveryFailed(msg) => {
me.socket = None;
me.socket_source = None;
me.error = Some(SharedString::from(msg));
}
TickOutcome::QueryFailed(msg) => {
// Invalidamos el socket cacheado: la
// próxima iteración re-descubre.
me.socket = None;
me.socket_source = None;
me.error = Some(SharedString::from(msg));
}
}
cx.notify();
@@ -83,33 +109,79 @@ impl Explorer {
.detach();
Self {
socket: None,
snapshot: None,
error: None,
socket_source: None,
}
}
}
enum TickOutcome {
Ok {
socket: PathBuf,
source: &'static str,
snapshot: ListMonadsResponse,
},
DiscoveryFailed(String),
QueryFailed(String),
}
/// Resuelve el socket (cache o discovery) y consulta `ListMonads`.
/// Pensado para correr en background: no toca GPUI, sólo I/O.
fn tick(prior_socket: Option<PathBuf>) -> TickOutcome {
let (socket, source) = match prior_socket {
Some(p) => (p, "cache"),
None => match discover() {
Ok(p) => (p, "discovery"),
Err(e) => return TickOutcome::DiscoveryFailed(format!("discovery: {e}")),
},
};
match query_client::list_monads(&socket, QUERY_TIMEOUT) {
Ok(resp) => TickOutcome::Ok {
socket,
source,
snapshot: resp,
},
Err(e) => TickOutcome::QueryFailed(format!(
"query a {}: {e} — re-descubriendo en próxima iteración",
socket.display()
)),
}
}
/// Discovery del daemon vía broker brahman. Construye un consumer
/// Card con `flow.input = monad-list:json`, espera al primer
/// `MatchEvent::Available`, devuelve el `producer_service_socket`.
fn discover() -> Result<PathBuf, ConsumerError> {
let card = build_consumer_card("nouser-explorer", FLOW_MONAD_LIST, FLOW_TYPE_NAME);
await_provider_blocking(card, DISCOVERY_TIMEOUT)
}
impl Render for Explorer {
fn render(&mut self, _w: &mut Window, _cx: &mut Context<Self>) -> impl IntoElement {
let bg = rgb(0x14171c);
let card_bg = rgb(0x1d2128);
let text_dim = rgb(0x9ba1ad);
let text = rgb(0xe6e8ec);
let accent_ente = rgb(0x88c0d0);
let accent_engine = rgb(0x88c0d0);
let accent_data = rgb(0xb48ead);
let header_text = match &self.snapshot {
Some(s) => format!(
"Init · protocol={} · attached={} · {} sesión(es){}",
s.protocol_version,
s.init_attached,
s.sessions.len(),
s.current_context
let header_text = match (&self.snapshot, &self.socket, self.socket_source) {
(Some(s), Some(sock), Some(src)) => format!(
"Engine '{}' · {} mónada(s) · socket: {} ({}){}",
s.engine.label,
s.monads.len(),
sock.display(),
src,
s.engine
.watching
.as_deref()
.map(|c| format!(" · context: {}", c))
.map(|w| format!(" · watching: {}", w))
.unwrap_or_default()
),
None => "Esperando snapshot del Init brahman…".to_string(),
_ => "Buscando daemon nouser vía brahman-broker".to_string(),
};
let header = div()
@@ -134,62 +206,11 @@ impl Render for Explorer {
let cards: Vec<gpui::AnyElement> = match &self.snapshot {
None => vec![],
Some(snap) => snap
.sessions
.iter()
.map(|s| {
let (kind_label, accent) = match s.kind {
CardKind::Ente => ("ente", accent_ente),
CardKind::Data => ("data", accent_data),
};
let summary_line = s
.data
.as_ref()
.map(|d| d.summary.clone())
.unwrap_or_default();
let keywords = s
.data
.as_ref()
.map(|d| d.keywords.join(", "))
.unwrap_or_default();
let lens_line = s
.data
.as_ref()
.map(|d| d.presentation_hint.clone())
.filter(|h| !h.is_empty())
.map(|h| format!("lens: {h}"))
.unwrap_or_default();
let sock_line = s
.service_socket
.as_ref()
.map(|p| format!("socket: {}", p.display()))
.unwrap_or_default();
let refs_line = if s.references.is_empty() {
String::new()
} else {
let parts: Vec<String> = s
.references
.iter()
.map(|r| {
format!(
"{:?}{}",
r.kind,
if r.target_label.is_empty() {
"?"
} else {
r.target_label.as_str()
}
)
})
.collect();
format!("refs: {}", parts.join(" "))
};
Some(snap) => {
let mut out = Vec::with_capacity(snap.monads.len() + 1);
// Engine card primero — el "ser" que owns las Mónadas.
out.push(
div()
.flex()
.flex_col()
@@ -198,7 +219,7 @@ impl Render for Explorer {
.bg(card_bg)
.rounded(px(6.))
.border_l_4()
.border_color(accent)
.border_color(accent_engine)
.gap(px(2.))
.child(
div()
@@ -208,72 +229,131 @@ impl Render for Explorer {
.items_center()
.child(
div()
.text_color(accent)
.text_color(accent_engine)
.text_size(px(11.))
.child(format!("[{kind_label}]")),
.child("[engine]"),
)
.child(
div()
.text_color(text)
.text_size(px(15.))
.child(s.label.clone()),
)
.child(
div()
.text_color(text_dim)
.text_size(px(11.))
.child(format!("{:?}", s.lifecycle)),
.child(snap.engine.label.clone()),
),
)
.child(
div()
.text_color(text_dim)
.text_size(px(11.))
.child(format!("id: {}", s.session)),
.child(format!("id: {}", snap.engine.id)),
)
.when(!summary_line.is_empty(), |d| {
d.child(
div()
.text_color(text)
.text_size(px(12.))
.child(summary_line.clone()),
)
})
.when(!keywords.is_empty(), |d| {
.when_some(snap.engine.watching.clone(), |d, w| {
d.child(
div()
.text_color(text_dim)
.text_size(px(11.))
.child(format!("keywords: {keywords}")),
.child(format!("watching: {w}")),
)
})
.when(!lens_line.is_empty(), |d| {
d.child(
.into_any_element(),
);
// Mónadas (kind=Data por construcción).
for m in &snap.monads {
let lens = lens_label(m.dominant_lens);
let keywords = m.keywords.join(", ");
let path_hint_line = m
.path_hint
.as_deref()
.filter(|p| !p.is_empty())
.map(|p| format!("path: {p}"));
let model_line = m
.centroid_model
.as_deref()
.filter(|m| !m.is_empty())
.map(|m| format!("model: {m}"));
out.push(
div()
.flex()
.flex_col()
.p(px(12.))
.mb(px(8.))
.bg(card_bg)
.rounded(px(6.))
.border_l_4()
.border_color(accent_data)
.gap(px(2.))
.child(
div()
.flex()
.flex_row()
.gap(px(8.))
.items_center()
.child(
div()
.text_color(accent_data)
.text_size(px(11.))
.child("[monad]"),
)
.child(
div()
.text_color(text)
.text_size(px(15.))
.child(m.label.clone()),
)
.child(
div()
.text_color(text_dim)
.text_size(px(11.))
.child(format!(
"{} files · ent {:.2} · {}",
m.cardinality, m.entropy, lens
)),
),
)
.child(
div()
.text_color(text_dim)
.text_size(px(11.))
.child(lens_line),
.child(format!("id: {}", m.id)),
)
})
.when(!sock_line.is_empty(), |d| {
d.child(
div()
.text_color(text_dim)
.text_size(px(11.))
.child(sock_line),
)
})
.when(!refs_line.is_empty(), |d| {
d.child(
div()
.text_color(text_dim)
.text_size(px(11.))
.child(refs_line),
)
})
.into_any_element()
})
.collect(),
.when(!m.summary.is_empty(), |d| {
d.child(
div()
.text_color(text)
.text_size(px(12.))
.child(m.summary.clone()),
)
})
.when(!keywords.is_empty(), |d| {
d.child(
div()
.text_color(text_dim)
.text_size(px(11.))
.child(format!("keywords: {keywords}")),
)
})
.when_some(path_hint_line, |d, line| {
d.child(
div()
.text_color(text_dim)
.text_size(px(11.))
.child(line),
)
})
.when_some(model_line, |d, line| {
d.child(
div()
.text_color(text_dim)
.text_size(px(11.))
.child(line),
)
})
.into_any_element(),
);
}
out
}
};
let body = div()
@@ -293,3 +373,14 @@ impl Render for Explorer {
.child(body)
}
}
fn lens_label(l: Lens) -> &'static str {
match l {
Lens::Grid => "grid",
Lens::Code => "code",
Lens::Gallery => "gallery",
Lens::Database => "database",
Lens::Markdown => "markdown",
Lens::Tree => "tree",
}
}