use crate::errors::AppError;
use crate::i18n::erros;
use crate::output;
use crate::paths::AppPaths;
use crate::storage::connection::open_ro;
use rusqlite::params;
use rusqlite::OptionalExtension;
use serde::Serialize;
#[derive(clap::Args)]
pub struct HistoryArgs {
#[arg(long)]
pub name: String,
#[arg(long, default_value = "global")]
pub namespace: Option<String>,
#[arg(long, help = "No-op; JSON is always emitted on stdout")]
pub json: bool,
#[arg(long, env = "SQLITE_GRAPHRAG_DB_PATH")]
pub db: Option<String>,
}
#[derive(Serialize)]
struct HistoryVersion {
version: i64,
name: String,
#[serde(rename = "type")]
memory_type: String,
description: String,
body: String,
metadata: String,
change_reason: String,
changed_by: Option<String>,
created_at: i64,
created_at_iso: String,
}
#[derive(Serialize)]
struct HistoryResponse {
name: String,
namespace: String,
deleted: bool,
versions: Vec<HistoryVersion>,
elapsed_ms: u64,
}
pub fn run(args: HistoryArgs) -> Result<(), AppError> {
let inicio = std::time::Instant::now();
let namespace = crate::namespace::resolve_namespace(args.namespace.as_deref())?;
let paths = AppPaths::resolve(args.db.as_deref())?;
if !paths.db.exists() {
return Err(AppError::NotFound(erros::banco_nao_encontrado(
&paths.db.display().to_string(),
)));
}
let conn = open_ro(&paths.db)?;
let row: Option<(i64, Option<i64>)> = conn
.query_row(
"SELECT id, deleted_at FROM memories WHERE namespace = ?1 AND name = ?2",
params![namespace, args.name],
|r| Ok((r.get(0)?, r.get(1)?)),
)
.optional()?;
let (memory_id, deleted_at) = row
.ok_or_else(|| AppError::NotFound(erros::memoria_nao_encontrada(&args.name, &namespace)))?;
let deleted = deleted_at.is_some();
let mut stmt = conn.prepare(
"SELECT version, name, type, description, body, metadata,
change_reason, changed_by, created_at
FROM memory_versions
WHERE memory_id = ?1
ORDER BY version ASC",
)?;
let versions = stmt
.query_map(params![memory_id], |r| {
let created_at: i64 = r.get(8)?;
let created_at_iso = crate::tz::epoch_para_iso(created_at);
Ok(HistoryVersion {
version: r.get(0)?,
name: r.get(1)?,
memory_type: r.get(2)?,
description: r.get(3)?,
body: r.get(4)?,
metadata: r.get(5)?,
change_reason: r.get(6)?,
changed_by: r.get(7)?,
created_at,
created_at_iso,
})
})?
.collect::<Result<Vec<_>, _>>()?;
output::emit_json(&HistoryResponse {
name: args.name,
namespace,
deleted,
versions,
elapsed_ms: inicio.elapsed().as_millis() as u64,
})?;
Ok(())
}
#[cfg(test)]
mod testes {
#[test]
fn epoch_zero_gera_iso_valido() {
let iso = crate::tz::epoch_para_iso(0);
assert!(iso.starts_with("1970-01-01T00:00:00"), "obtido: {iso}");
assert!(iso.contains("00:00"), "deve conter offset, obtido: {iso}");
}
#[test]
fn epoch_tipico_gera_iso_rfc3339() {
let iso = crate::tz::epoch_para_iso(1_745_000_000);
assert!(!iso.is_empty(), "created_at_iso não deve ser vazio");
assert!(iso.contains('T'), "created_at_iso deve conter separador T");
assert!(
iso.contains('+') || iso.contains('-'),
"deve conter sinal de offset, obtido: {iso}"
);
}
#[test]
fn epoch_invalido_retorna_fallback() {
let iso = crate::tz::epoch_para_iso(i64::MIN);
assert!(
!iso.is_empty(),
"epoch inválido deve retornar fallback não-vazio"
);
}
}