use crate::errors::AppError;
use crate::output;
use crate::paths::AppPaths;
use crate::storage::connection::open_rw;
use crate::storage::{memories, versions};
use serde::Serialize;
use std::io::Read as _;
#[derive(clap::Args)]
pub struct EditArgs {
#[arg(long)]
pub name: String,
#[arg(long)]
pub body: Option<String>,
#[arg(long)]
pub body_file: Option<std::path::PathBuf>,
#[arg(long)]
pub body_stdin: bool,
#[arg(long)]
pub description: Option<String>,
#[arg(long, value_parser = crate::parsers::parse_expected_updated_at)]
pub expected_updated_at: Option<i64>,
#[arg(long, default_value = "global")]
pub namespace: Option<String>,
#[arg(long, env = "NEUROGRAPHRAG_DB_PATH")]
pub db: Option<String>,
}
#[derive(Serialize)]
struct EditResponse {
memory_id: i64,
name: String,
action: String,
version: i64,
}
pub fn run(args: EditArgs) -> Result<(), AppError> {
use crate::constants::*;
let namespace = crate::namespace::resolve_namespace(args.namespace.as_deref())?;
let paths = AppPaths::resolve(args.db.as_deref())?;
let mut conn = open_rw(&paths.db)?;
let (memory_id, current_updated_at, _current_version) =
memories::find_by_name(&conn, &namespace, &args.name)?.ok_or_else(|| {
AppError::NotFound(format!(
"memory '{}' not found in namespace '{}'",
args.name, namespace
))
})?;
if let Some(expected) = args.expected_updated_at {
if expected != current_updated_at {
return Err(AppError::Conflict(format!(
"optimistic lock conflict: expected updated_at={expected}, but current is {current_updated_at}"
)));
}
}
let mut raw_body: Option<String> = None;
if args.body.is_some() || args.body_file.is_some() || args.body_stdin {
let b = if let Some(b) = args.body {
b
} else if let Some(path) = &args.body_file {
std::fs::read_to_string(path).map_err(AppError::Io)?
} else {
let mut buf = String::new();
std::io::stdin()
.read_to_string(&mut buf)
.map_err(AppError::Io)?;
buf
};
if b.len() > MAX_MEMORY_BODY_LEN {
return Err(AppError::LimitExceeded(
crate::i18n::validacao::body_excede(MAX_MEMORY_BODY_LEN),
));
}
raw_body = Some(b);
}
if let Some(ref desc) = args.description {
if desc.len() > MAX_MEMORY_DESCRIPTION_LEN {
return Err(AppError::Validation(
crate::i18n::validacao::descricao_excede(MAX_MEMORY_DESCRIPTION_LEN),
));
}
}
let row = memories::read_by_name(&conn, &namespace, &args.name)?
.ok_or_else(|| AppError::Internal(anyhow::anyhow!("memory row not found after check")))?;
let new_body = raw_body.unwrap_or(row.body.clone());
let new_description = args.description.unwrap_or(row.description.clone());
let new_hash = blake3::hash(new_body.as_bytes()).to_hex().to_string();
let memory_type = row.memory_type.clone();
let metadata = row.metadata.clone();
let tx = conn.transaction_with_behavior(rusqlite::TransactionBehavior::Immediate)?;
let affected = if let Some(ts) = args.expected_updated_at {
tx.execute(
"UPDATE memories SET description=?2, body=?3, body_hash=?4
WHERE id=?1 AND updated_at=?5 AND deleted_at IS NULL",
rusqlite::params![memory_id, new_description, new_body, new_hash, ts],
)?
} else {
tx.execute(
"UPDATE memories SET description=?2, body=?3, body_hash=?4
WHERE id=?1 AND deleted_at IS NULL",
rusqlite::params![memory_id, new_description, new_body, new_hash],
)?
};
if affected == 0 {
return Err(AppError::Conflict(
"optimistic lock conflict: memory was modified by another process".to_string(),
));
}
let next_v = versions::next_version(&tx, memory_id)?;
versions::insert_version(
&tx,
memory_id,
next_v,
&args.name,
&memory_type,
&new_description,
&new_body,
&metadata,
None,
"edit",
)?;
tx.commit()?;
output::emit_json(&EditResponse {
memory_id,
name: args.name,
action: "updated".to_string(),
version: next_v,
})?;
Ok(())
}