Sergio
b3feaf667c
Las Cards ahora declaran sus relaciones con otras Cards. El Engine
posee Mónadas; las Mónadas declaran que son poseídas por el Engine.
- brahman-card:
- RelationshipKind { Owns, OwnedBy, Processes, ProcessedBy, Sibling }
- CardReference { kind, target_id: Ulid, target_label: String }.
target_label es cache para que la UI renderee sin resolver.
- Card.references: Vec<CardReference> + espejo en WireCard.
Conversiones From propagan.
- brahman-broker::BrokeredCard propaga references.
- brahman-status imprime "ref OwnedBy → label (id)" por sesión.
- nouser daemon: cada Mónada publicada añade OwnedBy apuntando al
engine. Declaración unilateral — el engine no necesita conocer
Mónada IDs de antemano.
Validación end-to-end:
$ ente-zero & nouser daemon crates/core
$ brahman-status
Sessions (6):
[ente] brahman.nouser_engine
[data] brahman-handshake/src
ref OwnedBy → brahman.nouser_engine (01K...)
[data] ente-brain/src
ref OwnedBy → brahman.nouser_engine (01K...)
...
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
99 lines
3.5 KiB
Rust
99 lines
3.5 KiB
Rust
//! `brahman-status` — CLI para inspeccionar el estado del Init.
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//!
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//! Conecta al socket admin (default `$XDG_RUNTIME_DIR/brahman-admin.sock`,
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//! override con `$BRAHMAN_ADMIN_SOCKET`), recibe el snapshot, y lo imprime.
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use brahman_admin::{client, transport};
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#[tokio::main(flavor = "current_thread")]
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async fn main() -> anyhow::Result<()> {
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let path = transport::default_socket_path();
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let snap = client::query(&path).await?;
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println!(
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"Init: server={} protocol={} attached={}",
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snap.server_version, snap.protocol_version, snap.init_attached
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);
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if let Some(ctx) = &snap.current_context {
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println!("Context: {}", ctx);
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}
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println!();
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println!("Sessions ({}):", snap.sessions.len());
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if snap.sessions.is_empty() {
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println!(" (ninguna)");
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} else {
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for s in &snap.sessions {
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let conscious_marker = if s.wit.is_some() { " 🧠" } else { "" };
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let kind_marker = match s.kind {
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brahman_card::CardKind::Ente => "ente",
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brahman_card::CardKind::Data => "data",
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};
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println!(
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" [{}] {} {}{} lifecycle={:?} priority={:?}",
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kind_marker, s.session, s.label, conscious_marker, s.lifecycle, s.priority
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);
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if let Some(sock) = &s.service_socket {
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println!(" socket: {}", sock.display());
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}
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for r in &s.references {
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println!(
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" ref {:?} → {} ({})",
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r.kind, r.target_label, r.target_id
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);
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}
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if let Some(data) = &s.data {
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if !data.summary.is_empty() {
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println!(" summary: {}", data.summary);
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}
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if data.member_count > 0 {
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println!(
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" members: {} (dispersion={:.2})",
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data.member_count, data.dispersion
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);
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}
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if !data.keywords.is_empty() {
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println!(" keywords: {}", data.keywords.join(", "));
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}
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if !data.presentation_hint.is_empty() {
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println!(" lens hint: {}", data.presentation_hint);
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}
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}
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if let Some(wit) = &s.wit {
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println!(" wit: {} / {}", wit.package, wit.world);
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if !wit.imports.is_empty() {
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println!(" imports: {}", wit.imports.join(", "));
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}
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if !wit.exports.is_empty() {
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println!(" exports: {}", wit.exports.join(", "));
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}
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}
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for f in &s.inputs {
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println!(" in {}: {:?}", f.name, f.ty);
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}
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for f in &s.outputs {
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println!(" out {}: {:?}", f.name, f.ty);
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}
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}
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}
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println!();
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println!("Matches ({}):", snap.matches.len());
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if snap.matches.is_empty() {
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println!(" (ninguno)");
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} else {
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for m in &snap.matches {
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let pin_marker = if m.pinned { "📌" } else { " " };
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println!(
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" {} {}.{} ← {}.{} via {:?}",
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pin_marker,
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m.consumer_label,
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m.consumer.flow_name,
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m.producer_label,
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m.producer.flow_name,
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m.via
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);
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}
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}
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Ok(())
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}
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