use std::cmp::max; use std::fs::File; use std::path::PathBuf; use std::time::{Duration, SystemTime}; use clap::Args; use rust_util::{opt_result, simple_error, success, util_time, warning, XResult}; use rust_util::util_time::UnixEpochTime; use simpledateformat::format_human2; use crate::{util_enc_file, util_envelop}; use crate::config::TinyEncryptConfig; use crate::consts::{DATE_TIME_FORMAT, TINY_ENC_AES_GCM, TINY_ENC_CONFIG_FILE, TINY_ENC_FILE_EXT}; #[derive(Debug, Args)] pub struct CmdInfo { /// File pub paths: Vec, /// Show raw meta #[arg(long, default_value_t = false)] pub raw_meta: bool, } pub fn info(cmd_info: CmdInfo) -> XResult<()> { for (i, path) in cmd_info.paths.iter().enumerate() { if i > 0 { println!("{}", "-".repeat(88)); } if let Err(e) = info_single(path, &cmd_info) { warning!("Parse Tiny Encrypt file info failed: {}", e); } } println!(); Ok(()) } pub fn info_single(path: &PathBuf, cmd_info: &CmdInfo) -> XResult<()> { let path_display = format!("{}", path.display()); if !path_display.ends_with(TINY_ENC_FILE_EXT) { return simple_error!("Not a Tiny Encrypt file: {}", path_display); } let config = TinyEncryptConfig::load(TINY_ENC_CONFIG_FILE).ok(); let mut file_in = opt_result!(File::open(path), "Open file: {} failed: {}", &path_display); let meta = opt_result!( util_enc_file::read_tiny_encrypt_meta_and_normalize(&mut file_in), "Read file: {}, failed: {}", &path_display ); if cmd_info.raw_meta { println!("{}", serde_json::to_string_pretty(&meta).expect("SHOULD NOT HAPPEN")); return Ok(()); } let mut infos = vec![]; infos.push("Tiny Encrypt File Info".to_string()); let compressed = if meta.compress { " [compressed]" } else { "" }; infos.push(format!("{}: {}{}", header("File name"), path_display, compressed)); infos.push(format!("{}: {} bytes", header("File size"), meta.file_length)); infos.push(format!("{}: Version: {}, Agent: {}", header("File summary"), meta.version, meta.user_agent) ); let now_millis = util_time::get_current_millis() as u64; let fmt = simpledateformat::fmt(DATE_TIME_FORMAT).unwrap(); infos.push(format!("{}: {}, {} ago", header("Last modified"), fmt.format_local(SystemTime::from_millis(meta.file_last_modified)), format_human2(Duration::from_millis(now_millis - meta.file_last_modified)) )); infos.push(format!("{}: {}, {} ago", header("Created"), fmt.format_local(SystemTime::from_millis(meta.created)), format_human2(Duration::from_millis(now_millis - meta.created)) )); if let Some(envelops) = meta.envelops.as_ref() { envelops.iter().enumerate().for_each(|(i, envelop)| { infos.push(format!("{}: {}", header(&format!("Envelop #{}", i + 1)), util_envelop::format_envelop(envelop, &config) )); }) } if let Some(fingerprint) = meta.pgp_fingerprint { infos.push(format!("{}: {}", header("PGP fingerprint"), fingerprint)); } if let Some(comment) = meta.comment { infos.push(format!("{}: {}", header("Comment"), comment)); } infos.push(format!("{}: {}", header("Encrypted comment"), to_yes_or_no(&meta.encrypted_comment))); infos.push(format!("{}: {}", header("Encrypted meta"), to_yes_or_no(&meta.encrypted_meta))); let encryption_algorithm = if let Some(encryption_algorithm) = &meta.encryption_algorithm { encryption_algorithm.to_string() } else { format!("{} (default)", TINY_ENC_AES_GCM) }; infos.push(format!("{}: {}", header("Encryption algorithm"), encryption_algorithm)); success!("{}", infos.join("\n")); Ok(()) } fn header(h: &str) -> String { let width = 21; h.to_string() + ".".repeat(max(width - h.len(), 0)).as_str() } fn to_yes_or_no(opt: &Option) -> String { opt.as_ref().map(|_| "YES".to_string()).unwrap_or_else(|| "NO".to_string()) }