extern crate dotenv; /** * High level API for the SSV library, * based on the low level bindings in libssv.rs. * */ extern crate libc; use libc::{c_void, size_t}; use std::ffi::CString; use std::path::PathBuf; use std::ptr; use std::env; use crate::libssv::{SSV_InitLIB2, SSV_LireCartePS, SSV_LireConfig}; fn ssv_init_lib_2() { let ini_str = env::var("SESAM_INI_PATH").expect("SESAM_INI_PATH must be set"); let ini = CString::new(ini_str).expect("CString::new failed"); unsafe { let result = SSV_InitLIB2(ini.as_ptr()); println!("SSV_InitLIB2 result: {}", result); } } fn ssv_lire_carte_ps() { let resource_ps = CString::new("PS").expect("CString::new failed"); let resource_reader = CString::new("TRANSPA1").expect("CString::new failed"); let card_number = CString::new("1234567890").expect("CString::new failed"); let mut buffer: *mut c_void = ptr::null_mut(); let mut size: size_t = 0; let mut hex_values: &[u8] = &[]; unsafe { let result = SSV_LireCartePS( resource_ps.as_ptr(), resource_reader.as_ptr(), card_number.as_ptr(), &mut buffer, &mut size, ); println!("SSV_LireCartePS result: {}", result); if !buffer.is_null() { hex_values = std::slice::from_raw_parts(buffer as *const u8, size); for &byte in hex_values { print!("{:02X} ", byte); } println!(); libc::free(buffer); } } decode_zone_memoire(hex_values); } pub fn decode_zone_memoire(bytes: &[u8]) { // Maintenant, vous pouvez accéder aux octets individuels dans `donnees` for &octet in bytes { println!("Octet: {}", octet); } let mut current_pos_general = 0; let mut current_groupe = 0; let mut num_champ = 0; while current_pos_general < bytes.len() - 1 { num_champ = 0; current_groupe = 256 * bytes[current_pos_general] as i32 + bytes[current_pos_general + 1] as i32; current_pos_general += 2; let longueur_groupe: usize; if bytes[current_pos_general] < 128 { longueur_groupe = bytes[current_pos_general] as usize; } else { let nbre_octets_longueur = bytes[current_pos_general] - 128; longueur_groupe = (0..nbre_octets_longueur).fold(0, |acc, i| { current_pos_general += 1; acc + (256_i32.pow(i as u32) * bytes[current_pos_general] as i32) as usize }); } current_pos_general += 1; let mut current_pos_groupe = 0; while current_pos_groupe < longueur_groupe { num_champ += 1; let longueur_champs: usize; let nbre_octets_longueur: usize; if bytes[current_pos_general] < 128 { longueur_champs = bytes[current_pos_general] as usize; nbre_octets_longueur = 1; } else { nbre_octets_longueur = bytes[current_pos_general] as usize - 128; longueur_champs = (0..nbre_octets_longueur).fold(0, |acc, i| { current_pos_general += 1; current_pos_groupe += 1; acc + (256_i32.pow(i as u32) * bytes[current_pos_general] as i32) as usize }); } let mut bytes_champ = vec![0; longueur_champs]; if longueur_champs > 0 { bytes_champ.copy_from_slice( &bytes[current_pos_general + nbre_octets_longueur ..current_pos_general + nbre_octets_longueur + longueur_champs], ); match current_groupe { 1 => match num_champ { 1 => println!("Groupe1.Champ1: {}", String::from_utf8_lossy(&bytes_champ)), 2 => println!("Groupe1.Champ2: {}", String::from_utf8_lossy(&bytes_champ)), 3 => println!("Groupe1.Champ3: {}", String::from_utf8_lossy(&bytes_champ)), 4 => println!("Groupe1.Champ4: {}", String::from_utf8_lossy(&bytes_champ)), 5 => println!("Groupe1.Champ5: {}", String::from_utf8_lossy(&bytes_champ)), 6 => println!("Groupe1.Champ6: {}", String::from_utf8_lossy(&bytes_champ)), 7 => println!("Groupe1.Champ7: {}", String::from_utf8_lossy(&bytes_champ)), 8 => println!("Groupe1.Champ8: {}", String::from_utf8_lossy(&bytes_champ)), _ => (), }, 2 => match num_champ { 1 => { // Ajoutez votre logique pour Groupe2 ici } 2 => { // Ajoutez votre logique pour Groupe2 ici } 3 => { // Ajoutez votre logique pour Groupe2 ici } _ => (), }, _ => (), } } current_pos_general += longueur_champs + nbre_octets_longueur; current_pos_groupe += longueur_champs + nbre_octets_longueur; } } } fn ssv_lire_config() { let mut buffer: *mut c_void = ptr::null_mut(); let mut size: size_t = 0; unsafe { let result = SSV_LireConfig(&mut buffer, &mut size); println!("SSV_LireConfig result: {}", result); if !buffer.is_null() { let hex_values = std::slice::from_raw_parts(buffer as *const u8, size); for &byte in hex_values { print!("{:02X} ", byte); } println!(); libc::free(buffer); } } } pub fn demo() { /* * TODO : this is probably not working on release, because I'm not sure it exists a CARGO_MANIFEST_DIR and so it can find the `.env` * Maybe we could use a system standard config path to store a config file */ let manifest_dir = env::var("CARGO_MANIFEST_DIR").unwrap(); let manifest_path = PathBuf::from(manifest_dir); dotenv::from_path(manifest_path.join(".env")).ok(); println!("------- Demo for the SSV library --------"); ssv_init_lib_2(); ssv_lire_carte_ps(); ssv_lire_config(); println!("-----------------------------------------"); }