//! Nyash EncodingBox Plugin - UTF-8/Base64/Hex helpers use once_cell::sync::Lazy; use std::collections::HashMap; use std::sync::{ atomic::{AtomicU32, Ordering}, Mutex, }; const OK: i32 = 0; const E_SHORT: i32 = -1; const E_TYPE: i32 = -2; const E_METHOD: i32 = -3; const E_ARGS: i32 = -4; const E_PLUGIN: i32 = -5; const E_HANDLE: i32 = -8; const M_BIRTH: u32 = 0; // constructor (stateless) const M_TO_UTF8_BYTES: u32 = 1; // toUtf8Bytes(s) -> bytes const M_FROM_UTF8_BYTES: u32 = 2; // fromUtf8Bytes(bytes) -> string const M_BASE64_ENC: u32 = 3; // base64Encode(s|bytes) -> string const M_BASE64_DEC: u32 = 4; // base64Decode(str) -> bytes const M_HEX_ENC: u32 = 5; // hexEncode(s|bytes) -> string const M_HEX_DEC: u32 = 6; // hexDecode(str) -> bytes const M_FINI: u32 = u32::MAX; // Assign an unused type id const TYPE_ID_ENCODING: u32 = 53; struct EncInstance; // stateless static INST: Lazy>> = Lazy::new(|| Mutex::new(HashMap::new())); static NEXT_ID: AtomicU32 = AtomicU32::new(1); // legacy v1 abi/init removed /* legacy v1 entry removed #[no_mangle] pub extern "C" fn nyash_plugin_invoke( type_id: u32, method_id: u32, instance_id: u32, args: *const u8, args_len: usize, result: *mut u8, result_len: *mut usize, ) -> i32 { if type_id != TYPE_ID_ENCODING { return E_TYPE; } unsafe { match method_id { M_BIRTH => { if result_len.is_null() { return E_ARGS; } if preflight(result, result_len, 4) { return E_SHORT; } let id = NEXT_ID.fetch_add(1, Ordering::Relaxed); if let Ok(mut m) = INST.lock() { m.insert(id, EncInstance); } else { return E_PLUGIN; } let b = id.to_le_bytes(); std::ptr::copy_nonoverlapping(b.as_ptr(), result, 4); *result_len = 4; OK } M_FINI => { if let Ok(mut m) = INST.lock() { m.remove(&instance_id); OK } else { E_PLUGIN } } M_TO_UTF8_BYTES => { let s = match read_arg_string(args, args_len, 0) { Some(v) => v, None => return E_ARGS, }; write_tlv_bytes(s.as_bytes(), result, result_len) } M_FROM_UTF8_BYTES => { let bytes = match read_arg_bytes(args, args_len, 0) { Some(v) => v, None => return E_ARGS, }; match String::from_utf8(bytes) { Ok(s) => write_tlv_string(&s, result, result_len), Err(_) => write_tlv_string("", result, result_len), } } M_BASE64_ENC => { if let Some(b) = read_arg_bytes(args, args_len, 0) { let s = base64::encode(b); return write_tlv_string(&s, result, result_len); } let s = match read_arg_string(args, args_len, 0) { Some(v) => v, None => return E_ARGS, }; let enc = base64::encode(s.as_bytes()); write_tlv_string(&enc, result, result_len) } M_BASE64_DEC => { let s = match read_arg_string(args, args_len, 0) { Some(v) => v, None => return E_ARGS, }; match base64::decode(s.as_bytes()) { Ok(b) => write_tlv_bytes(&b, result, result_len), Err(_) => write_tlv_bytes(&[], result, result_len), } } M_HEX_ENC => { if let Some(b) = read_arg_bytes(args, args_len, 0) { let s = hex::encode(b); return write_tlv_string(&s, result, result_len); } let s = match read_arg_string(args, args_len, 0) { Some(v) => v, None => return E_ARGS, }; let enc = hex::encode(s.as_bytes()); write_tlv_string(&enc, result, result_len) } M_HEX_DEC => { let s = match read_arg_string(args, args_len, 0) { Some(v) => v, None => return E_ARGS, }; match hex::decode(s.as_bytes()) { Ok(b) => write_tlv_bytes(&b, result, result_len), Err(_) => write_tlv_bytes(&[], result, result_len), } } _ => E_METHOD, } } } */ // ===== TypeBox ABI v2 (resolve/invoke_id) ===== #[repr(C)] pub struct NyashTypeBoxFfi { pub abi_tag: u32, // 'TYBX' pub version: u16, // 1 pub struct_size: u16, // sizeof(NyashTypeBoxFfi) pub name: *const std::os::raw::c_char, pub resolve: Option u32>, pub invoke_id: Option i32>, pub capabilities: u64, } unsafe impl Sync for NyashTypeBoxFfi {} use std::ffi::CStr; extern "C" fn encoding_resolve(name: *const std::os::raw::c_char) -> u32 { if name.is_null() { return 0; } let s = unsafe { CStr::from_ptr(name) }.to_string_lossy(); match s.as_ref() { "toUtf8Bytes" => M_TO_UTF8_BYTES, "fromUtf8Bytes" => M_FROM_UTF8_BYTES, "base64Encode" => M_BASE64_ENC, "base64Decode" => M_BASE64_DEC, "hexEncode" => M_HEX_ENC, "hexDecode" => M_HEX_DEC, "birth" => M_BIRTH, "fini" => M_FINI, _ => 0, } } extern "C" fn encoding_invoke_id( instance_id: u32, method_id: u32, args: *const u8, args_len: usize, result: *mut u8, result_len: *mut usize, ) -> i32 { unsafe { match method_id { M_BIRTH => { if result_len.is_null() { return E_ARGS; } if preflight(result, result_len, 4) { return E_SHORT; } let id = NEXT_ID.fetch_add(1, Ordering::Relaxed); if let Ok(mut m) = INST.lock() { m.insert(id, EncInstance); } else { return E_PLUGIN; } let b = id.to_le_bytes(); std::ptr::copy_nonoverlapping(b.as_ptr(), result, 4); *result_len = 4; OK } M_FINI => { if let Ok(mut m) = INST.lock() { m.remove(&instance_id); OK } else { E_PLUGIN } } M_TO_UTF8_BYTES => { let s = match read_arg_string(args, args_len, 0) { Some(v) => v, None => return E_ARGS, }; write_tlv_bytes(s.as_bytes(), result, result_len) } M_FROM_UTF8_BYTES => { let bytes = match read_arg_bytes(args, args_len, 0) { Some(v) => v, None => return E_ARGS, }; match String::from_utf8(bytes) { Ok(s) => write_tlv_string(&s, result, result_len), Err(_) => write_tlv_string("", result, result_len), } } M_BASE64_ENC => { if let Some(b) = read_arg_bytes(args, args_len, 0) { let s = base64::encode(b); return write_tlv_string(&s, result, result_len); } let s = match read_arg_string(args, args_len, 0) { Some(v) => v, None => return E_ARGS, }; let enc = base64::encode(s.as_bytes()); write_tlv_string(&enc, result, result_len) } M_BASE64_DEC => { let s = match read_arg_string(args, args_len, 0) { Some(v) => v, None => return E_ARGS, }; match base64::decode(s.as_bytes()) { Ok(b) => write_tlv_bytes(&b, result, result_len), Err(_) => write_tlv_bytes(&[], result, result_len), } } M_HEX_ENC => { if let Some(b) = read_arg_bytes(args, args_len, 0) { let s = hex::encode(b); return write_tlv_string(&s, result, result_len); } let s = match read_arg_string(args, args_len, 0) { Some(v) => v, None => return E_ARGS, }; let enc = hex::encode(s.as_bytes()); write_tlv_string(&enc, result, result_len) } M_HEX_DEC => { let s = match read_arg_string(args, args_len, 0) { Some(v) => v, None => return E_ARGS, }; match hex::decode(s.as_bytes()) { Ok(b) => write_tlv_bytes(&b, result, result_len), Err(_) => write_tlv_bytes(&[], result, result_len), } } _ => E_METHOD, } } } #[no_mangle] pub static nyash_typebox_EncodingBox: NyashTypeBoxFfi = NyashTypeBoxFfi { abi_tag: 0x54594258, version: 1, struct_size: std::mem::size_of::() as u16, name: b"EncodingBox\0".as_ptr() as *const std::os::raw::c_char, resolve: Some(encoding_resolve), invoke_id: Some(encoding_invoke_id), capabilities: 0, }; fn preflight(result: *mut u8, result_len: *mut usize, needed: usize) -> bool { unsafe { if result_len.is_null() { return false; } if result.is_null() || *result_len < needed { *result_len = needed; return true; } } false } fn write_tlv_result(payloads: &[(u8, &[u8])], result: *mut u8, result_len: *mut usize) -> i32 { if result_len.is_null() { return E_ARGS; } let mut buf: Vec = Vec::with_capacity(4 + payloads.iter().map(|(_, p)| 4 + p.len()).sum::()); buf.extend_from_slice(&1u16.to_le_bytes()); buf.extend_from_slice(&(payloads.len() as u16).to_le_bytes()); for (tag, payload) in payloads { buf.push(*tag); buf.push(0); buf.extend_from_slice(&(payload.len() as u16).to_le_bytes()); buf.extend_from_slice(payload); } unsafe { let needed = buf.len(); if result.is_null() || *result_len < needed { *result_len = needed; return E_SHORT; } std::ptr::copy_nonoverlapping(buf.as_ptr(), result, needed); *result_len = needed; } OK } fn write_tlv_string(s: &str, result: *mut u8, result_len: *mut usize) -> i32 { write_tlv_result(&[(6u8, s.as_bytes())], result, result_len) } fn write_tlv_bytes(b: &[u8], result: *mut u8, result_len: *mut usize) -> i32 { write_tlv_result(&[(7u8, b)], result, result_len) } fn read_arg_string(args: *const u8, args_len: usize, n: usize) -> Option { if args.is_null() || args_len < 4 { return None; } let buf = unsafe { std::slice::from_raw_parts(args, args_len) }; let mut off = 4usize; for i in 0..=n { if buf.len() < off + 4 { return None; } let tag = buf[off]; let size = u16::from_le_bytes([buf[off + 2], buf[off + 3]]) as usize; if buf.len() < off + 4 + size { return None; } if i == n { if tag == 6 || tag == 7 { return Some(String::from_utf8_lossy(&buf[off + 4..off + 4 + size]).to_string()); } else { return None; } } off += 4 + size; } None } fn read_arg_bytes(args: *const u8, args_len: usize, n: usize) -> Option> { if args.is_null() || args_len < 4 { return None; } let buf = unsafe { std::slice::from_raw_parts(args, args_len) }; let mut off = 4usize; for i in 0..=n { if buf.len() < off + 4 { return None; } let tag = buf[off]; let size = u16::from_le_bytes([buf[off + 2], buf[off + 3]]) as usize; if buf.len() < off + 4 + size { return None; } if i == n { if tag == 7 || tag == 6 { return Some(buf[off + 4..off + 4 + size].to_vec()); } else { return None; } } off += 4 + size; } None }