//! Nyash Python Plugin (Phase 15): //! - ABI v1 compatible entry points + ABI v2 TypeBox exports //! - Two Box types: PyRuntimeBox (TYPE_ID=40) and PyObjectBox (TYPE_ID=41) use once_cell::sync::Lazy; use std::collections::HashMap; use std::sync::{ atomic::{AtomicU32, Ordering}, Mutex, }; // ===== Error Codes (aligned with other plugins) ===== const NYB_SUCCESS: i32 = 0; const NYB_E_SHORT_BUFFER: i32 = -1; const _NYB_E_INVALID_TYPE: i32 = -2; const NYB_E_INVALID_METHOD: i32 = -3; const NYB_E_INVALID_ARGS: i32 = -4; const NYB_E_PLUGIN_ERROR: i32 = -5; const NYB_E_INVALID_HANDLE: i32 = -8; // ===== Type IDs (must match nyash.toml) ===== const _TYPE_ID_PY_RUNTIME: u32 = 40; const TYPE_ID_PY_OBJECT: u32 = 41; // ===== Method IDs (initial draft) ===== // PyRuntimeBox const PY_METHOD_BIRTH: u32 = 0; // returns instance_id (u32 LE, no TLV) const PY_METHOD_EVAL: u32 = 1; // args: string code -> returns Handle(PyObject) const PY_METHOD_IMPORT: u32 = 2; // args: string name -> returns Handle(PyObject) const PY_METHOD_FINI: u32 = u32::MAX; // destructor // Result-returning variants (R) const PY_METHOD_EVAL_R: u32 = 11; const PY_METHOD_IMPORT_R: u32 = 12; // PyObjectBox const PYO_METHOD_BIRTH: u32 = 0; // reserved (should not be used directly) const PYO_METHOD_GETATTR: u32 = 1; // args: string name -> returns Handle(PyObject) const PYO_METHOD_CALL: u32 = 2; // args: variadic TLV -> returns Handle(PyObject) const PYO_METHOD_STR: u32 = 3; // returns String const PYO_METHOD_CALL_KW: u32 = 5; // args: key:string, val:TLV, ... -> returns Handle(PyObject) const PYO_METHOD_FINI: u32 = u32::MAX; // destructor // Result-returning variants (R) const PYO_METHOD_GETATTR_R: u32 = 11; const PYO_METHOD_CALL_R: u32 = 12; const PYO_METHOD_CALL_KW_R: u32 = 15; // ===== Minimal in-memory state for stubs ===== #[derive(Default)] struct PyRuntimeInstance { globals: Option<*mut PyObject>, } // Safety: Access to CPython state is guarded by the GIL in all call sites // and we only store raw pointers captured under the GIL. We never mutate // from multiple threads without reacquiring the GIL. Therefore, mark as // Send/Sync for storage inside global Lazy>. unsafe impl Send for PyRuntimeInstance {} unsafe impl Sync for PyRuntimeInstance {} #[derive(Default)] struct PyObjectInstance {} static RUNTIMES: Lazy>> = Lazy::new(|| Mutex::new(HashMap::new())); static PYOBJS: Lazy>> = Lazy::new(|| Mutex::new(HashMap::new())); static RT_COUNTER: AtomicU32 = AtomicU32::new(1); static OBJ_COUNTER: AtomicU32 = AtomicU32::new(1); // ====== CPython FFI and GIL guard ====== mod ffi; mod gil; mod pytypes; use ffi::{ensure_cpython, PyObject}; use pytypes::{DecodedValue, PyOwned}; // loader moved to ffi.rs // 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 { match type_id { TYPE_ID_PY_RUNTIME => { handle_py_runtime(method_id, instance_id, args, args_len, result, result_len) } TYPE_ID_PY_OBJECT => { handle_py_object(method_id, instance_id, args, args_len, result, result_len) } _ => NYB_E_INVALID_TYPE, } } */ fn handle_py_runtime( method_id: u32, _instance_id: u32, _args: *const u8, _args_len: usize, result: *mut u8, result_len: *mut usize, ) -> i32 { unsafe { match method_id { PY_METHOD_BIRTH => { if result_len.is_null() { return NYB_E_INVALID_ARGS; } if preflight(result, result_len, 4) { return NYB_E_SHORT_BUFFER; } if ensure_cpython().is_err() { return NYB_E_PLUGIN_ERROR; } let id = RT_COUNTER.fetch_add(1, Ordering::Relaxed); let mut inst = PyRuntimeInstance::default(); if let Some(cpy) = &*ffi::CPY.lock().unwrap() { let c_main = pytypes::cstring_from_str("__main__").expect("literal __main__"); let _gil = gil::GILGuard::acquire(cpy); let module = (cpy.PyImport_AddModule)(c_main.as_ptr()); if !module.is_null() { let dict = (cpy.PyModule_GetDict)(module); if !dict.is_null() { inst.globals = Some(dict); } } } if let Ok(mut map) = RUNTIMES.lock() { map.insert(id, inst); } else { return NYB_E_PLUGIN_ERROR; } let bytes = id.to_le_bytes(); std::ptr::copy_nonoverlapping(bytes.as_ptr(), result, 4); *result_len = 4; NYB_SUCCESS } PY_METHOD_FINI => { // Only drop runtime slot; avoid calling Py_Finalize to prevent shutdown crashes. if let Ok(mut map) = RUNTIMES.lock() { map.remove(&_instance_id); } NYB_SUCCESS } PY_METHOD_EVAL | PY_METHOD_EVAL_R => { if ensure_cpython().is_err() { return NYB_E_PLUGIN_ERROR; } // Allow zero-arg eval by reading from env var (NYASH_PY_EVAL_CODE) for bootstrap demos let argc = pytypes::count_tlv_args(_args, _args_len); let code = if argc == 0 { std::env::var("NYASH_PY_EVAL_CODE").unwrap_or_else(|_| "".to_string()) } else { if let Some(s) = read_arg_string(_args, _args_len, 0) { s } else { return NYB_E_INVALID_ARGS; } }; let c_code = match pytypes::cstring_from_str(&code) { Ok(s) => s, Err(_) => return NYB_E_INVALID_ARGS, }; if let Some(cpy) = &*ffi::CPY.lock().unwrap() { let _gil = gil::GILGuard::acquire(cpy); // use per-runtime globals if available let mut dict: *mut PyObject = std::ptr::null_mut(); if let Ok(map) = RUNTIMES.lock() { if let Some(rt) = map.get(&_instance_id) { if let Some(g) = rt.globals { dict = g; } } } if dict.is_null() { let c_main = pytypes::cstring_from_str("__main__").expect("literal __main__"); let module = (cpy.PyImport_AddModule)(c_main.as_ptr()); if module.is_null() { return NYB_E_PLUGIN_ERROR; } dict = (cpy.PyModule_GetDict)(module); } // 258 == Py_eval_input let obj = (cpy.PyRun_StringFlags)( c_code.as_ptr(), 258, dict, dict, std::ptr::null_mut(), ); if obj.is_null() { let msg = pytypes::take_py_error_string(cpy); if method_id == PY_METHOD_EVAL_R { return NYB_E_PLUGIN_ERROR; } if let Some(m) = msg { return write_tlv_string(&m, result, result_len); } return NYB_E_PLUGIN_ERROR; } if (method_id == PY_METHOD_EVAL || method_id == PY_METHOD_EVAL_R) && should_autodecode() { if let Some(decoded) = pytypes::autodecode(cpy, obj) { if write_autodecode_result(&decoded, result, result_len) { (cpy.Py_DecRef)(obj); return NYB_SUCCESS; } } } // Store as PyObjectBox handle let id = OBJ_COUNTER.fetch_add(1, Ordering::Relaxed); if let Ok(mut map) = PYOBJS.lock() { map.insert(id, PyObjectInstance::default()); } else { (cpy.Py_DecRef)(obj); return NYB_E_PLUGIN_ERROR; } // Keep reference (obj is new ref). We model store via separate map and hold pointer via raw address table. // To actually manage pointer per id, we extend PyObjectInstance in 10.5b with a field. For now, attach through side-table. let owned = PyOwned::from_new(obj).expect("non-null PyObject"); PY_HANDLES.lock().unwrap().insert(id, owned); return write_tlv_handle(TYPE_ID_PY_OBJECT, id, result, result_len); } NYB_E_PLUGIN_ERROR } PY_METHOD_IMPORT | PY_METHOD_IMPORT_R => { if ensure_cpython().is_err() { return NYB_E_PLUGIN_ERROR; } let Some(name) = read_arg_string(_args, _args_len, 0) else { return NYB_E_INVALID_ARGS; }; let c_name = match pytypes::cstring_from_str(&name) { Ok(s) => s, Err(_) => return NYB_E_INVALID_ARGS, }; if let Some(cpy) = &*ffi::CPY.lock().unwrap() { let _gil = gil::GILGuard::acquire(cpy); let obj = (cpy.PyImport_ImportModule)(c_name.as_ptr()); if obj.is_null() { let msg = pytypes::take_py_error_string(cpy); if method_id == PY_METHOD_IMPORT_R { return NYB_E_PLUGIN_ERROR; } if let Some(m) = msg { return write_tlv_string(&m, result, result_len); } return NYB_E_PLUGIN_ERROR; } // expose module into runtime globals if let Ok(map) = RUNTIMES.lock() { if let Some(rt) = map.get(&_instance_id) { if let Some(gl) = rt.globals { (cpy.PyDict_SetItemString)(gl, c_name.as_ptr(), obj); } } } let id = OBJ_COUNTER.fetch_add(1, Ordering::Relaxed); if let Ok(mut map) = PYOBJS.lock() { map.insert(id, PyObjectInstance::default()); } else { (cpy.Py_DecRef)(obj); return NYB_E_PLUGIN_ERROR; } let owned = PyOwned::from_new(obj).expect("non-null PyObject"); PY_HANDLES.lock().unwrap().insert(id, owned); return write_tlv_handle(TYPE_ID_PY_OBJECT, id, result, result_len); } NYB_E_PLUGIN_ERROR } _ => NYB_E_INVALID_METHOD, } } } fn handle_py_object( method_id: u32, instance_id: u32, _args: *const u8, _args_len: usize, result: *mut u8, result_len: *mut usize, ) -> i32 { match method_id { PYO_METHOD_BIRTH => NYB_E_INVALID_METHOD, // should be created via runtime PYO_METHOD_FINI => { PY_HANDLES.lock().unwrap().remove(&instance_id); if let Ok(mut map) = PYOBJS.lock() { map.remove(&instance_id); NYB_SUCCESS } else { NYB_E_PLUGIN_ERROR } } PYO_METHOD_GETATTR | PYO_METHOD_GETATTR_R => { if ensure_cpython().is_err() { return NYB_E_PLUGIN_ERROR; } let Some(name) = read_arg_string(_args, _args_len, 0) else { return NYB_E_INVALID_ARGS; }; if let Some(cpy) = &*ffi::CPY.lock().unwrap() { let obj_ptr = { let guard = PY_HANDLES.lock().unwrap(); let Some(handle) = guard.get(&instance_id) else { return NYB_E_INVALID_HANDLE; }; handle.as_ptr() }; let c_name = match pytypes::cstring_from_str(&name) { Ok(s) => s, Err(_) => return NYB_E_INVALID_ARGS, }; let _gil = gil::GILGuard::acquire(cpy); let attr = unsafe { (cpy.PyObject_GetAttrString)(obj_ptr, c_name.as_ptr()) }; if attr.is_null() { let msg = pytypes::take_py_error_string(cpy); if method_id == PYO_METHOD_GETATTR_R { return NYB_E_PLUGIN_ERROR; } if let Some(m) = msg { return write_tlv_string(&m, result, result_len); } return NYB_E_PLUGIN_ERROR; } if should_autodecode() { if let Some(decoded) = pytypes::autodecode(cpy, attr) { if write_autodecode_result(&decoded, result, result_len) { unsafe { (cpy.Py_DecRef)(attr); } return NYB_SUCCESS; } } } let id = OBJ_COUNTER.fetch_add(1, Ordering::Relaxed); let owned = unsafe { PyOwned::from_new(attr).expect("non-null PyObject") }; PY_HANDLES.lock().unwrap().insert(id, owned); return write_tlv_handle(TYPE_ID_PY_OBJECT, id, result, result_len); } NYB_E_PLUGIN_ERROR } PYO_METHOD_CALL | PYO_METHOD_CALL_R => { if ensure_cpython().is_err() { return NYB_E_PLUGIN_ERROR; } if let Some(cpy) = &*ffi::CPY.lock().unwrap() { let func_ptr = { let guard = PY_HANDLES.lock().unwrap(); let Some(handle) = guard.get(&instance_id) else { return NYB_E_INVALID_HANDLE; }; handle.as_ptr() }; let _gil = gil::GILGuard::acquire(cpy); // Build tuple from TLV args via pytypes let tuple = match pytypes::tuple_from_tlv(cpy, _args, _args_len) { Ok(t) => t, Err(_) => return NYB_E_INVALID_ARGS, }; let ret = unsafe { (cpy.PyObject_CallObject)(func_ptr, tuple) }; unsafe { (cpy.Py_DecRef)(tuple); } if ret.is_null() { let msg = pytypes::take_py_error_string(cpy); if method_id == PYO_METHOD_CALL_R { return NYB_E_PLUGIN_ERROR; } if let Some(m) = msg { return write_tlv_string(&m, result, result_len); } return NYB_E_PLUGIN_ERROR; } if should_autodecode() { if let Some(decoded) = pytypes::autodecode(cpy, ret) { if write_autodecode_result(&decoded, result, result_len) { unsafe { (cpy.Py_DecRef)(ret); } return NYB_SUCCESS; } } } let id = OBJ_COUNTER.fetch_add(1, Ordering::Relaxed); let owned = unsafe { PyOwned::from_new(ret).expect("non-null PyObject") }; PY_HANDLES.lock().unwrap().insert(id, owned); return write_tlv_handle(TYPE_ID_PY_OBJECT, id, result, result_len); } NYB_E_PLUGIN_ERROR } PYO_METHOD_CALL_KW | PYO_METHOD_CALL_KW_R => { if ensure_cpython().is_err() { return NYB_E_PLUGIN_ERROR; } if let Some(cpy) = &*ffi::CPY.lock().unwrap() { let func_ptr = { let guard = PY_HANDLES.lock().unwrap(); let Some(handle) = guard.get(&instance_id) else { return NYB_E_INVALID_HANDLE; }; handle.as_ptr() }; let _gil = gil::GILGuard::acquire(cpy); // Empty args tuple for kwargs-only call let args_tup = unsafe { (cpy.PyTuple_New)(0) }; if args_tup.is_null() { return NYB_E_PLUGIN_ERROR; } // Build kwargs dict from TLV pairs via pytypes let kwargs = match pytypes::kwargs_from_tlv(cpy, _args, _args_len) { Ok(d) => d, Err(_) => { unsafe { (cpy.Py_DecRef)(args_tup); } return NYB_E_INVALID_ARGS; } }; let ret = unsafe { (cpy.PyObject_Call)(func_ptr, args_tup, kwargs) }; unsafe { (cpy.Py_DecRef)(kwargs); (cpy.Py_DecRef)(args_tup); } if ret.is_null() { let msg = pytypes::take_py_error_string(cpy); if method_id == PYO_METHOD_CALL_KW_R { return NYB_E_PLUGIN_ERROR; } if let Some(m) = msg { return write_tlv_string(&m, result, result_len); } return NYB_E_PLUGIN_ERROR; } if (method_id == PYO_METHOD_CALL_KW || method_id == PYO_METHOD_CALL_KW_R) && should_autodecode() { if let Some(decoded) = pytypes::autodecode(cpy, ret) { if write_autodecode_result(&decoded, result, result_len) { unsafe { (cpy.Py_DecRef)(ret); } return NYB_SUCCESS; } } } let id = OBJ_COUNTER.fetch_add(1, Ordering::Relaxed); let owned = unsafe { PyOwned::from_new(ret).expect("non-null PyObject") }; PY_HANDLES.lock().unwrap().insert(id, owned); return write_tlv_handle(TYPE_ID_PY_OBJECT, id, result, result_len); } NYB_E_PLUGIN_ERROR } PYO_METHOD_STR => { if ensure_cpython().is_err() { return NYB_E_PLUGIN_ERROR; } if let Some(cpy) = &*ffi::CPY.lock().unwrap() { let obj_ptr = { let guard = PY_HANDLES.lock().unwrap(); let Some(handle) = guard.get(&instance_id) else { return NYB_E_INVALID_HANDLE; }; handle.as_ptr() }; let _gil = gil::GILGuard::acquire(cpy); let s_obj = unsafe { (cpy.PyObject_Str)(obj_ptr) }; if s_obj.is_null() { return NYB_E_PLUGIN_ERROR; } let rust_str = unsafe { let cstr = (cpy.PyUnicode_AsUTF8)(s_obj); match pytypes::cstr_to_string(cstr) { Some(s) => s, None => { (cpy.Py_DecRef)(s_obj); return NYB_E_PLUGIN_ERROR; } } }; unsafe { (cpy.Py_DecRef)(s_obj); } return write_tlv_string(&rust_str, result, result_len); } NYB_E_PLUGIN_ERROR } // keep others unimplemented in 10.5b-min _ => NYB_E_INVALID_METHOD, } } // ===== Minimal TLV helpers (copy from other plugins for consistency) ===== // ===== 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 {} extern "C" fn pyruntime_resolve(name: *const std::os::raw::c_char) -> u32 { if name.is_null() { return 0; } let Some(s) = (unsafe { pytypes::cstr_to_string(name) }) else { return 0; }; match s.as_str() { "birth" => PY_METHOD_BIRTH, "eval" | "evalR" => { if s == "evalR" { PY_METHOD_EVAL_R } else { PY_METHOD_EVAL } } "import" | "importR" => { if s == "importR" { PY_METHOD_IMPORT_R } else { PY_METHOD_IMPORT } } "fini" => PY_METHOD_FINI, _ => 0, } } extern "C" fn pyruntime_invoke_id( instance_id: u32, method_id: u32, args: *const u8, args_len: usize, result: *mut u8, result_len: *mut usize, ) -> i32 { handle_py_runtime(method_id, instance_id, args, args_len, result, result_len) } extern "C" fn pyobject_resolve(name: *const std::os::raw::c_char) -> u32 { if name.is_null() { return 0; } let Some(s) = (unsafe { pytypes::cstr_to_string(name) }) else { return 0; }; match s.as_str() { "getattr" | "getAttr" | "getattrR" | "getAttrR" => { if s.ends_with('R') { PYO_METHOD_GETATTR_R } else { PYO_METHOD_GETATTR } } "call" | "callR" => { if s.ends_with('R') { PYO_METHOD_CALL_R } else { PYO_METHOD_CALL } } "callKw" | "callKW" | "call_kw" | "callKwR" | "callKWR" => { if s.to_lowercase().ends_with('r') { PYO_METHOD_CALL_KW_R } else { PYO_METHOD_CALL_KW } } "str" | "toString" => PYO_METHOD_STR, "birth" => PYO_METHOD_BIRTH, "fini" => PYO_METHOD_FINI, _ => 0, } } extern "C" fn pyobject_invoke_id( instance_id: u32, method_id: u32, args: *const u8, args_len: usize, result: *mut u8, result_len: *mut usize, ) -> i32 { handle_py_object(method_id, instance_id, args, args_len, result, result_len) } #[no_mangle] pub static nyash_typebox_PyRuntimeBox: NyashTypeBoxFfi = NyashTypeBoxFfi { abi_tag: 0x54594258, version: 1, struct_size: std::mem::size_of::() as u16, name: b"PyRuntimeBox\0".as_ptr() as *const std::os::raw::c_char, resolve: Some(pyruntime_resolve), invoke_id: Some(pyruntime_invoke_id), capabilities: 0, }; #[no_mangle] pub static nyash_typebox_PyObjectBox: NyashTypeBoxFfi = NyashTypeBoxFfi { abi_tag: 0x54594258, version: 1, struct_size: std::mem::size_of::() as u16, name: b"PyObjectBox\0".as_ptr() as *const std::os::raw::c_char, resolve: Some(pyobject_resolve), invoke_id: Some(pyobject_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_string(s: &str, result: *mut u8, result_len: *mut usize) -> i32 { let payload = s.as_bytes(); write_tlv_result(&[(6u8, payload)], result, result_len) } fn write_tlv_handle( type_id: u32, instance_id: u32, result: *mut u8, result_len: *mut usize, ) -> i32 { let mut payload = [0u8; 8]; payload[..4].copy_from_slice(&type_id.to_le_bytes()); payload[4..].copy_from_slice(&instance_id.to_le_bytes()); write_tlv_result(&[(8u8, &payload)], result, result_len) } /// Read nth TLV argument as String (tag 6) 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; // skip header for i in 0..=n { if buf.len() < off + 4 { return None; } let tag = buf[off]; let _rsv = buf[off + 1]; 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 { return None; } let slice = &buf[off + 4..off + 4 + size]; return std::str::from_utf8(slice).ok().map(|s| s.to_string()); } off += 4 + size; } None } // Side-table for PyObject* storage (instance_id -> pointer) static PY_HANDLES: Lazy>> = Lazy::new(|| Mutex::new(HashMap::new())); // Base TLV writer used by helpers fn write_tlv_result(payloads: &[(u8, &[u8])], result: *mut u8, result_len: *mut usize) -> i32 { if result_len.is_null() { return NYB_E_INVALID_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()); // version buf.extend_from_slice(&(payloads.len() as u16).to_le_bytes()); // argc 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 NYB_E_SHORT_BUFFER; } std::ptr::copy_nonoverlapping(buf.as_ptr(), result, needed); *result_len = needed; } NYB_SUCCESS } fn should_autodecode() -> bool { std::env::var("NYASH_PY_AUTODECODE") .map(|v| v != "0") .unwrap_or(false) } fn autodecode_logging_enabled() -> bool { std::env::var("NYASH_PY_LOG") .map(|v| v != "0") .unwrap_or(false) } fn write_autodecode_result( decoded: &DecodedValue, result: *mut u8, result_len: *mut usize, ) -> bool { let rc = match decoded { DecodedValue::Float(value) => { if autodecode_logging_enabled() { eprintln!("[PyPlugin] autodecode: Float {}", value); } let payload = value.to_le_bytes(); write_tlv_result(&[(5u8, payload.as_slice())], result, result_len) } DecodedValue::Int(value) => { if autodecode_logging_enabled() { eprintln!("[PyPlugin] autodecode: I64 {}", value); } let payload = value.to_le_bytes(); write_tlv_result(&[(3u8, payload.as_slice())], result, result_len) } DecodedValue::Str(text) => { if autodecode_logging_enabled() { eprintln!( "[PyPlugin] autodecode: String '{}', len={} ", text, text.len() ); } write_tlv_result(&[(6u8, text.as_bytes())], result, result_len) } DecodedValue::Bytes(data) => { if autodecode_logging_enabled() { eprintln!("[PyPlugin] autodecode: Bytes {} bytes", data.len()); } write_tlv_result(&[(7u8, data.as_slice())], result, result_len) } }; rc == NYB_SUCCESS || rc == NYB_E_SHORT_BUFFER }