// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. #![allow(non_upper_case_globals)] #![deny(unsafe_op_in_unsafe_fn)] const NAPI_VERSION: u32 = 9; use deno_runtime::deno_napi::*; use libc::INT_MAX; use super::util::check_new_from_utf8; use super::util::check_new_from_utf8_len; use super::util::get_array_buffer_ptr; use super::util::make_external_backing_store; use super::util::napi_clear_last_error; use super::util::napi_set_last_error; use super::util::v8_name_from_property_descriptor; use crate::check_arg; use crate::check_env; use deno_runtime::deno_napi::function::create_function; use deno_runtime::deno_napi::function::create_function_template; use deno_runtime::deno_napi::function::CallbackInfo; use napi_sym::napi_sym; use std::ptr::NonNull; #[derive(Debug, Clone, Copy, PartialEq)] enum ReferenceOwnership { Runtime, Userland, } enum ReferenceState { Strong(v8::Global), Weak(v8::Weak), } struct Reference { env: *mut Env, state: ReferenceState, ref_count: u32, ownership: ReferenceOwnership, finalize_cb: Option, finalize_data: *mut c_void, finalize_hint: *mut c_void, } impl Reference { fn new( env: *mut Env, value: v8::Local, initial_ref_count: u32, ownership: ReferenceOwnership, finalize_cb: Option, finalize_data: *mut c_void, finalize_hint: *mut c_void, ) -> Box { let isolate = unsafe { (*env).isolate() }; let mut reference = Box::new(Reference { env, state: ReferenceState::Strong(v8::Global::new(isolate, value)), ref_count: initial_ref_count, ownership, finalize_cb, finalize_data, finalize_hint, }); if initial_ref_count == 0 { reference.set_weak(); } reference } fn ref_(&mut self) -> u32 { self.ref_count += 1; if self.ref_count == 1 { self.set_strong(); } self.ref_count } fn unref(&mut self) -> u32 { let old_ref_count = self.ref_count; if self.ref_count > 0 { self.ref_count -= 1; } if old_ref_count == 1 && self.ref_count == 0 { self.set_weak(); } self.ref_count } fn reset(&mut self) { self.finalize_cb = None; self.finalize_data = std::ptr::null_mut(); self.finalize_hint = std::ptr::null_mut(); } fn set_strong(&mut self) { if let ReferenceState::Weak(w) = &self.state { let isolate = unsafe { (*self.env).isolate() }; if let Some(g) = w.to_global(isolate) { self.state = ReferenceState::Strong(g); } } } fn set_weak(&mut self) { let reference = self as *mut Reference; if let ReferenceState::Strong(g) = &self.state { let cb = Box::new(move |_: &mut v8::Isolate| { Reference::weak_callback(reference) }); let isolate = unsafe { (*self.env).isolate() }; self.state = ReferenceState::Weak(v8::Weak::with_finalizer(isolate, g, cb)); } } fn weak_callback(reference: *mut Reference) { let reference = unsafe { &mut *reference }; let finalize_cb = reference.finalize_cb; let finalize_data = reference.finalize_data; let finalize_hint = reference.finalize_hint; reference.reset(); // copy this value before the finalize callback, since // it might free the reference (which would be a UAF) let ownership = reference.ownership; if let Some(finalize_cb) = finalize_cb { unsafe { finalize_cb(reference.env as _, finalize_data, finalize_hint); } } if ownership == ReferenceOwnership::Runtime { unsafe { drop(Reference::from_raw(reference)) } } } fn into_raw(r: Box) -> *mut Reference { Box::into_raw(r) } unsafe fn from_raw(r: *mut Reference) -> Box { unsafe { Box::from_raw(r) } } unsafe fn remove(r: *mut Reference) { let r = unsafe { &mut *r }; if r.ownership == ReferenceOwnership::Userland { r.reset(); } else { unsafe { drop(Reference::from_raw(r)) } } } } #[napi_sym] fn napi_get_last_error_info( env: *mut Env, result: *mut *const napi_extended_error_info, ) -> napi_status { let env = check_env!(env); check_arg!(env, result); if env.last_error.error_code == napi_ok { napi_clear_last_error(env); } else { env.last_error.error_message = ERROR_MESSAGES[env.last_error.error_code as usize].as_ptr(); } unsafe { *result = &env.last_error; } napi_ok } #[napi_sym] fn napi_create_function<'s>( env: &'s mut Env, name: *const c_char, length: usize, cb: Option, cb_info: napi_callback_info, result: *mut napi_value<'s>, ) -> napi_status { let env_ptr = env as *mut Env; check_arg!(env, result); check_arg!(env, cb); let name = if !name.is_null() { match unsafe { check_new_from_utf8_len(env, name, length) } { Ok(s) => Some(s), Err(status) => return status, } } else { None }; unsafe { *result = create_function(&mut env.scope(), env_ptr, name, cb.unwrap(), cb_info) .into(); } napi_ok } #[napi_sym] #[allow(clippy::too_many_arguments)] fn napi_define_class<'s>( env: &'s mut Env, utf8name: *const c_char, length: usize, constructor: Option, callback_data: *mut c_void, property_count: usize, properties: *const napi_property_descriptor, result: *mut napi_value<'s>, ) -> napi_status { let env_ptr = env as *mut Env; check_arg!(env, result); check_arg!(env, constructor); if property_count > 0 { check_arg!(env, properties); } let name = match unsafe { check_new_from_utf8_len(env, utf8name, length) } { Ok(string) => string, Err(status) => return status, }; let tpl = create_function_template( &mut env.scope(), env_ptr, Some(name), constructor.unwrap(), callback_data, ); let napi_properties: &[napi_property_descriptor] = if property_count > 0 { unsafe { std::slice::from_raw_parts(properties, property_count) } } else { &[] }; let mut static_property_count = 0; for p in napi_properties { if p.attributes & napi_static != 0 { // Will be handled below static_property_count += 1; continue; } let name = match unsafe { v8_name_from_property_descriptor(env_ptr, p) } { Ok(name) => name, Err(status) => return status, }; if p.getter.is_some() || p.setter.is_some() { let getter = p.getter.map(|g| { create_function_template(&mut env.scope(), env_ptr, None, g, p.data) }); let setter = p.setter.map(|s| { create_function_template(&mut env.scope(), env_ptr, None, s, p.data) }); let mut accessor_property = v8::PropertyAttribute::NONE; if getter.is_some() && setter.is_some() && (p.attributes & napi_writable) == 0 { accessor_property = accessor_property | v8::PropertyAttribute::READ_ONLY; } if p.attributes & napi_enumerable == 0 { accessor_property = accessor_property | v8::PropertyAttribute::DONT_ENUM; } if p.attributes & napi_configurable == 0 { accessor_property = accessor_property | v8::PropertyAttribute::DONT_DELETE; } let proto = tpl.prototype_template(&mut env.scope()); proto.set_accessor_property(name, getter, setter, accessor_property); } else if let Some(method) = p.method { let function = create_function_template( &mut env.scope(), env_ptr, None, method, p.data, ); let proto = tpl.prototype_template(&mut env.scope()); proto.set(name, function.into()); } else { let proto = tpl.prototype_template(&mut env.scope()); proto.set(name, p.value.unwrap().into()); } } let value: v8::Local = tpl.get_function(&mut env.scope()).unwrap().into(); unsafe { *result = value.into(); } if static_property_count > 0 { let mut static_descriptors = Vec::with_capacity(static_property_count); for p in napi_properties { if p.attributes & napi_static != 0 { static_descriptors.push(*p); } } crate::status_call!(unsafe { napi_define_properties( env_ptr, *result, static_descriptors.len(), static_descriptors.as_ptr(), ) }); } napi_ok } #[napi_sym] fn napi_get_property_names( env: *mut Env, object: napi_value, result: *mut napi_value, ) -> napi_status { unsafe { napi_get_all_property_names( env, object, napi_key_include_prototypes, napi_key_enumerable | napi_key_skip_symbols, napi_key_numbers_to_strings, result, ) } } #[napi_sym] fn napi_get_all_property_names<'s>( env: &'s mut Env, object: napi_value, key_mode: napi_key_collection_mode, key_filter: napi_key_filter, key_conversion: napi_key_conversion, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, result); let scope = &mut env.scope(); let Some(obj) = object.and_then(|o| o.to_object(scope)) else { return napi_object_expected; }; let mut filter = v8::PropertyFilter::ALL_PROPERTIES; if key_filter & napi_key_writable != 0 { filter = filter | v8::PropertyFilter::ONLY_WRITABLE; } if key_filter & napi_key_enumerable != 0 { filter = filter | v8::PropertyFilter::ONLY_ENUMERABLE; } if key_filter & napi_key_configurable != 0 { filter = filter | v8::PropertyFilter::ONLY_CONFIGURABLE; } if key_filter & napi_key_skip_strings != 0 { filter = filter | v8::PropertyFilter::SKIP_STRINGS; } if key_filter & napi_key_skip_symbols != 0 { filter = filter | v8::PropertyFilter::SKIP_SYMBOLS; } let key_mode = match key_mode { napi_key_include_prototypes => v8::KeyCollectionMode::IncludePrototypes, napi_key_own_only => v8::KeyCollectionMode::OwnOnly, _ => return napi_invalid_arg, }; let key_conversion = match key_conversion { napi_key_keep_numbers => v8::KeyConversionMode::KeepNumbers, napi_key_numbers_to_strings => v8::KeyConversionMode::ConvertToString, _ => return napi_invalid_arg, }; let filter = v8::GetPropertyNamesArgsBuilder::new() .mode(key_mode) .property_filter(filter) .index_filter(v8::IndexFilter::IncludeIndices) .key_conversion(key_conversion) .build(); let property_names = match obj.get_property_names(scope, filter) { Some(n) => n, None => return napi_generic_failure, }; unsafe { *result = property_names.into(); } napi_ok } #[napi_sym] fn napi_set_property( env: &mut Env, object: napi_value, key: napi_value, value: napi_value, ) -> napi_status { check_arg!(env, key); check_arg!(env, value); let scope = &mut env.scope(); let Some(object) = object.and_then(|o| o.to_object(scope)) else { return napi_object_expected; }; if object.set(scope, key.unwrap(), value.unwrap()).is_none() { return napi_generic_failure; }; napi_ok } #[napi_sym] fn napi_has_property( env: &mut Env, object: napi_value, key: napi_value, result: *mut bool, ) -> napi_status { check_arg!(env, key); check_arg!(env, result); let scope = &mut env.scope(); let Some(object) = object.and_then(|o| o.to_object(scope)) else { return napi_object_expected; }; let Some(has) = object.has(scope, key.unwrap()) else { return napi_generic_failure; }; unsafe { *result = has; } napi_ok } #[napi_sym] fn napi_get_property<'s>( env: &'s mut Env, object: napi_value, key: napi_value, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, key); check_arg!(env, result); let scope = &mut env.scope(); let Some(object) = object.and_then(|o| o.to_object(scope)) else { return napi_object_expected; }; let Some(value) = object.get(scope, key.unwrap()) else { return napi_generic_failure; }; unsafe { *result = value.into(); } napi_ok } #[napi_sym] fn napi_delete_property( env: &mut Env, object: napi_value, key: napi_value, result: *mut bool, ) -> napi_status { check_arg!(env, key); let scope = &mut env.scope(); let Some(object) = object.and_then(|o| o.to_object(scope)) else { return napi_object_expected; }; let Some(deleted) = object.delete(scope, key.unwrap()) else { return napi_generic_failure; }; if !result.is_null() { unsafe { *result = deleted; } } napi_ok } #[napi_sym] fn napi_has_own_property( env: &mut Env, object: napi_value, key: napi_value, result: *mut bool, ) -> napi_status { check_arg!(env, key); check_arg!(env, result); let scope = &mut env.scope(); let Some(object) = object.and_then(|o| o.to_object(scope)) else { return napi_object_expected; }; let Ok(key) = v8::Local::::try_from(key.unwrap()) else { return napi_name_expected; }; let Some(has_own) = object.has_own_property(scope, key) else { return napi_generic_failure; }; unsafe { *result = has_own; } napi_ok } #[napi_sym] fn napi_has_named_property<'s>( env: &'s mut Env, object: napi_value<'s>, utf8name: *const c_char, result: *mut bool, ) -> napi_status { let env_ptr = env as *mut Env; check_arg!(env, result); let Some(object) = object.and_then(|o| o.to_object(&mut env.scope())) else { return napi_object_expected; }; let key = match unsafe { check_new_from_utf8(env_ptr, utf8name) } { Ok(key) => key, Err(status) => return status, }; let Some(has_property) = object.has(&mut env.scope(), key.into()) else { return napi_generic_failure; }; unsafe { *result = has_property; } napi_ok } #[napi_sym] fn napi_set_named_property<'s>( env: &'s mut Env, object: napi_value<'s>, utf8name: *const c_char, value: napi_value<'s>, ) -> napi_status { check_arg!(env, value); let env_ptr = env as *mut Env; let Some(object) = object.and_then(|o| o.to_object(&mut env.scope())) else { return napi_object_expected; }; let key = match unsafe { check_new_from_utf8(env_ptr, utf8name) } { Ok(key) => key, Err(status) => return status, }; let value = value.unwrap(); if !object .set(&mut env.scope(), key.into(), value) .unwrap_or(false) { return napi_generic_failure; } napi_ok } #[napi_sym] fn napi_get_named_property<'s>( env: &'s mut Env, object: napi_value<'s>, utf8name: *const c_char, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, result); let env_ptr = env as *mut Env; let Some(object) = object.and_then(|o| o.to_object(&mut env.scope())) else { return napi_object_expected; }; let key = match unsafe { check_new_from_utf8(env_ptr, utf8name) } { Ok(key) => key, Err(status) => return status, }; let Some(value) = object.get(&mut env.scope(), key.into()) else { return napi_generic_failure; }; unsafe { *result = value.into(); } napi_ok } #[napi_sym] fn napi_set_element<'s>( env: &'s mut Env, object: napi_value<'s>, index: u32, value: napi_value<'s>, ) -> napi_status { check_arg!(env, value); let scope = &mut env.scope(); let Some(object) = object.and_then(|o| o.to_object(scope)) else { return napi_object_expected; }; if !object .set_index(scope, index, value.unwrap()) .unwrap_or(false) { return napi_generic_failure; } napi_ok } #[napi_sym] fn napi_has_element( env: &mut Env, object: napi_value, index: u32, result: *mut bool, ) -> napi_status { check_arg!(env, result); let scope = &mut env.scope(); let Some(object) = object.and_then(|o| o.to_object(scope)) else { return napi_object_expected; }; let Some(has) = object.has_index(scope, index) else { return napi_generic_failure; }; unsafe { *result = has; } napi_ok } #[napi_sym] fn napi_get_element<'s>( env: &'s mut Env, object: napi_value, index: u32, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, result); let scope = &mut env.scope(); let Some(object) = object.and_then(|o| o.to_object(scope)) else { return napi_object_expected; }; let Some(value) = object.get_index(scope, index) else { return napi_generic_failure; }; unsafe { *result = value.into(); } napi_ok } #[napi_sym] fn napi_delete_element( env: &mut Env, object: napi_value, index: u32, result: *mut bool, ) -> napi_status { let scope = &mut env.scope(); let Some(object) = object.and_then(|o| o.to_object(scope)) else { return napi_object_expected; }; let Some(deleted) = object.delete_index(scope, index) else { return napi_generic_failure; }; if !result.is_null() { unsafe { *result = deleted; } } napi_ok } #[napi_sym] fn napi_define_properties( env: &mut Env, object: napi_value, property_count: usize, properties: *const napi_property_descriptor, ) -> napi_status { let env_ptr = env as *mut Env; if property_count > 0 { check_arg!(env, properties); } let scope = &mut env.scope(); let Some(object) = object.and_then(|o| o.to_object(scope)) else { return napi_object_expected; }; let properties = if property_count == 0 { &[] } else { unsafe { std::slice::from_raw_parts(properties, property_count) } }; for property in properties { let property_name = match unsafe { v8_name_from_property_descriptor(env_ptr, property) } { Ok(name) => name, Err(status) => return status, }; let writable = property.attributes & napi_writable != 0; let enumerable = property.attributes & napi_enumerable != 0; let configurable = property.attributes & napi_configurable != 0; if property.getter.is_some() || property.setter.is_some() { let local_getter: v8::Local = if let Some(getter) = property.getter { create_function(&mut env.scope(), env_ptr, None, getter, property.data) .into() } else { v8::undefined(scope).into() }; let local_setter: v8::Local = if let Some(setter) = property.setter { create_function(&mut env.scope(), env_ptr, None, setter, property.data) .into() } else { v8::undefined(scope).into() }; let mut desc = v8::PropertyDescriptor::new_from_get_set(local_getter, local_setter); desc.set_enumerable(enumerable); desc.set_configurable(configurable); if !object .define_property(scope, property_name, &desc) .unwrap_or(false) { return napi_invalid_arg; } } else if let Some(method) = property.method { let method: v8::Local = { let function = create_function( &mut env.scope(), env_ptr, None, method, property.data, ); function.into() }; let mut desc = v8::PropertyDescriptor::new_from_value_writable(method, writable); desc.set_enumerable(enumerable); desc.set_configurable(configurable); if !object .define_property(scope, property_name, &desc) .unwrap_or(false) { return napi_generic_failure; } } else { let value = property.value.unwrap(); if enumerable & writable & configurable { if !object .create_data_property(scope, property_name, value) .unwrap_or(false) { return napi_invalid_arg; } } else { let mut desc = v8::PropertyDescriptor::new_from_value_writable(value, writable); desc.set_enumerable(enumerable); desc.set_configurable(configurable); if !object .define_property(scope, property_name, &desc) .unwrap_or(false) { return napi_invalid_arg; } } } } napi_ok } #[napi_sym] fn napi_object_freeze(env: &mut Env, object: napi_value) -> napi_status { let scope = &mut env.scope(); let Some(object) = object.and_then(|o| o.to_object(scope)) else { return napi_object_expected; }; if !object .set_integrity_level(scope, v8::IntegrityLevel::Frozen) .unwrap_or(false) { return napi_generic_failure; } napi_ok } #[napi_sym] fn napi_object_seal(env: &mut Env, object: napi_value) -> napi_status { let scope = &mut env.scope(); let Some(object) = object.and_then(|o| o.to_object(scope)) else { return napi_object_expected; }; if !object .set_integrity_level(scope, v8::IntegrityLevel::Sealed) .unwrap_or(false) { return napi_generic_failure; } napi_ok } #[napi_sym] fn napi_is_array( env: *mut Env, value: napi_value, result: *mut bool, ) -> napi_status { let env = check_env!(env); check_arg!(env, value); check_arg!(env, result); let value = value.unwrap(); unsafe { *result = value.is_array(); } napi_clear_last_error(env) } #[napi_sym] fn napi_get_array_length( env: &mut Env, value: napi_value, result: *mut u32, ) -> napi_status { check_arg!(env, value); check_arg!(env, result); let value = value.unwrap(); match v8::Local::::try_from(value) { Ok(array) => { unsafe { *result = array.length(); } napi_ok } Err(_) => napi_array_expected, } } #[napi_sym] fn napi_strict_equals( env: &mut Env, lhs: napi_value, rhs: napi_value, result: *mut bool, ) -> napi_status { check_arg!(env, lhs); check_arg!(env, rhs); check_arg!(env, result); unsafe { *result = lhs.unwrap().strict_equals(rhs.unwrap()); } napi_ok } #[napi_sym] fn napi_get_prototype<'s>( env: &'s mut Env, object: napi_value, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, result); let scope = &mut env.scope(); let Some(object) = object.and_then(|o| o.to_object(scope)) else { return napi_object_expected; }; let Some(proto) = object.get_prototype(scope) else { return napi_generic_failure; }; unsafe { *result = proto.into(); } napi_ok } #[napi_sym] fn napi_create_object( env_ptr: *mut Env, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, result); unsafe { *result = v8::Object::new(&mut env.scope()).into(); } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_create_array( env_ptr: *mut Env, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, result); unsafe { *result = v8::Array::new(&mut env.scope(), 0).into(); } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_create_array_with_length( env_ptr: *mut Env, length: usize, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, result); unsafe { *result = v8::Array::new(&mut env.scope(), length as _).into(); } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_create_string_latin1( env_ptr: *mut Env, string: *const c_char, length: usize, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); if length > 0 { check_arg!(env, string); } crate::return_status_if_false!( env, (length == NAPI_AUTO_LENGTH) || length <= INT_MAX as _, napi_invalid_arg ); let buffer = if length > 0 { unsafe { std::slice::from_raw_parts( string as _, if length == NAPI_AUTO_LENGTH { std::ffi::CStr::from_ptr(string).to_bytes().len() } else { length }, ) } } else { &[] }; let Some(string) = v8::String::new_from_one_byte( &mut env.scope(), buffer, v8::NewStringType::Normal, ) else { return napi_set_last_error(env_ptr, napi_generic_failure); }; unsafe { *result = string.into(); } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_create_string_utf8( env_ptr: *mut Env, string: *const c_char, length: usize, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); if length > 0 { check_arg!(env, string); } crate::return_status_if_false!( env, (length == NAPI_AUTO_LENGTH) || length <= INT_MAX as _, napi_invalid_arg ); let buffer = if length > 0 { unsafe { std::slice::from_raw_parts( string as _, if length == NAPI_AUTO_LENGTH { std::ffi::CStr::from_ptr(string).to_bytes().len() } else { length }, ) } } else { &[] }; let Some(string) = v8::String::new_from_utf8( &mut env.scope(), buffer, v8::NewStringType::Normal, ) else { return napi_set_last_error(env_ptr, napi_generic_failure); }; unsafe { *result = string.into(); } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_create_string_utf16( env_ptr: *mut Env, string: *const u16, length: usize, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); if length > 0 { check_arg!(env, string); } crate::return_status_if_false!( env, (length == NAPI_AUTO_LENGTH) || length <= INT_MAX as _, napi_invalid_arg ); let buffer = if length > 0 { unsafe { std::slice::from_raw_parts( string, if length == NAPI_AUTO_LENGTH { let mut length = 0; while *(string.add(length)) != 0 { length += 1; } length } else { length }, ) } } else { &[] }; let Some(string) = v8::String::new_from_two_byte( &mut env.scope(), buffer, v8::NewStringType::Normal, ) else { return napi_set_last_error(env_ptr, napi_generic_failure); }; unsafe { *result = string.into(); } return napi_clear_last_error(env_ptr); } #[napi_sym] fn node_api_create_external_string_latin1( env_ptr: *mut Env, _string: *const c_char, _length: usize, _nogc_finalize_callback: napi_finalize, _finalize_hint: *mut c_void, _result: *mut napi_value, _copied: *mut bool, ) -> napi_status { return napi_set_last_error(env_ptr, napi_generic_failure); } #[napi_sym] fn node_api_create_external_string_utf16( env_ptr: *mut Env, _string: *const u16, _length: usize, _nogc_finalize_callback: napi_finalize, _finalize_hint: *mut c_void, _result: *mut napi_value, _copied: *mut bool, ) -> napi_status { return napi_set_last_error(env_ptr, napi_generic_failure); } #[napi_sym] fn node_api_create_property_key_utf16( env_ptr: *mut Env, string: *const u16, length: usize, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); if length > 0 { check_arg!(env, string); } crate::return_status_if_false!( env, (length == NAPI_AUTO_LENGTH) || length <= INT_MAX as _, napi_invalid_arg ); let buffer = if length > 0 { unsafe { std::slice::from_raw_parts( string, if length == NAPI_AUTO_LENGTH { let mut length = 0; while *(string.add(length)) != 0 { length += 1; } length } else { length }, ) } } else { &[] }; let Some(string) = v8::String::new_from_two_byte( &mut env.scope(), buffer, v8::NewStringType::Internalized, ) else { return napi_set_last_error(env_ptr, napi_generic_failure); }; unsafe { *result = string.into(); } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_create_double( env_ptr: *mut Env, value: f64, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, result); unsafe { *result = v8::Number::new(&mut env.scope(), value).into(); } napi_clear_last_error(env_ptr) } #[napi_sym] fn napi_create_int32( env_ptr: *mut Env, value: i32, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, result); unsafe { *result = v8::Integer::new(&mut env.scope(), value).into(); } napi_clear_last_error(env_ptr) } #[napi_sym] fn napi_create_uint32( env_ptr: *mut Env, value: u32, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, result); unsafe { *result = v8::Integer::new_from_unsigned(&mut env.scope(), value).into(); } napi_clear_last_error(env_ptr) } #[napi_sym] fn napi_create_int64( env_ptr: *mut Env, value: i64, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, result); unsafe { *result = v8::Number::new(&mut env.scope(), value as _).into(); } napi_clear_last_error(env_ptr) } #[napi_sym] fn napi_create_bigint_int64( env_ptr: *mut Env, value: i64, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, result); unsafe { *result = v8::BigInt::new_from_i64(&mut env.scope(), value).into(); } napi_clear_last_error(env_ptr) } #[napi_sym] fn napi_create_bigint_uint64( env_ptr: *mut Env, value: u64, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, result); unsafe { *result = v8::BigInt::new_from_u64(&mut env.scope(), value).into(); } napi_clear_last_error(env_ptr) } #[napi_sym] fn napi_create_bigint_words<'s>( env: &'s mut Env, sign_bit: bool, word_count: usize, words: *const u64, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, words); check_arg!(env, result); if word_count > INT_MAX as _ { return napi_invalid_arg; } match v8::BigInt::new_from_words(&mut env.scope(), sign_bit, unsafe { std::slice::from_raw_parts(words, word_count) }) { Some(value) => unsafe { *result = value.into(); }, None => { return napi_generic_failure; } } napi_ok } #[napi_sym] fn napi_get_boolean( env: *mut Env, value: bool, result: *mut napi_value, ) -> napi_status { let env = check_env!(env); check_arg!(env, result); unsafe { *result = v8::Boolean::new(env.isolate(), value).into(); } return napi_clear_last_error(env); } #[napi_sym] fn napi_create_symbol( env_ptr: *mut Env, description: napi_value, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, result); let description = if let Some(d) = *description { let Some(d) = d.to_string(&mut env.scope()) else { return napi_set_last_error(env, napi_string_expected); }; Some(d) } else { None }; unsafe { *result = v8::Symbol::new(&mut env.scope(), description).into(); } return napi_clear_last_error(env_ptr); } #[napi_sym] fn node_api_symbol_for( env: *mut Env, utf8description: *const c_char, length: usize, result: *mut napi_value, ) -> napi_status { { let env = check_env!(env); check_arg!(env, result); let description_string = match unsafe { check_new_from_utf8_len(env, utf8description, length) } { Ok(s) => s, Err(status) => return napi_set_last_error(env, status), }; unsafe { *result = v8::Symbol::for_key(&mut env.scope(), description_string).into(); } } napi_clear_last_error(env) } macro_rules! napi_create_error_impl { ($env_ptr:ident, $code:ident, $msg:ident, $result:ident, $error:ident) => {{ let env_ptr = $env_ptr; let code = $code; let msg = $msg; let result = $result; let env = check_env!(env_ptr); check_arg!(env, msg); check_arg!(env, result); let Some(message) = msg.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env_ptr, napi_string_expected); }; let error = v8::Exception::$error(&mut env.scope(), message); if let Some(code) = *code { let error_obj: v8::Local = error.try_into().unwrap(); let code_key = v8::String::new(&mut env.scope(), "code").unwrap(); if !error_obj .set(&mut env.scope(), code_key.into(), code) .unwrap_or(false) { return napi_set_last_error(env_ptr, napi_generic_failure); } } unsafe { *result = error.into(); } return napi_clear_last_error(env_ptr); }}; } #[napi_sym] fn napi_create_error( env_ptr: *mut Env, code: napi_value, msg: napi_value, result: *mut napi_value, ) -> napi_status { napi_create_error_impl!(env_ptr, code, msg, result, error) } #[napi_sym] fn napi_create_type_error( env_ptr: *mut Env, code: napi_value, msg: napi_value, result: *mut napi_value, ) -> napi_status { napi_create_error_impl!(env_ptr, code, msg, result, type_error) } #[napi_sym] fn napi_create_range_error( env_ptr: *mut Env, code: napi_value, msg: napi_value, result: *mut napi_value, ) -> napi_status { napi_create_error_impl!(env_ptr, code, msg, result, range_error) } #[napi_sym] fn node_api_create_syntax_error( env_ptr: *mut Env, code: napi_value, msg: napi_value, result: *mut napi_value, ) -> napi_status { napi_create_error_impl!(env_ptr, code, msg, result, syntax_error) } pub fn get_value_type(value: v8::Local) -> Option { if value.is_undefined() { Some(napi_undefined) } else if value.is_null() { Some(napi_null) } else if value.is_external() { Some(napi_external) } else if value.is_boolean() { Some(napi_boolean) } else if value.is_number() { Some(napi_number) } else if value.is_big_int() { Some(napi_bigint) } else if value.is_string() { Some(napi_string) } else if value.is_symbol() { Some(napi_symbol) } else if value.is_function() { Some(napi_function) } else if value.is_object() { Some(napi_object) } else { None } } #[napi_sym] fn napi_typeof( env: *mut Env, value: napi_value, result: *mut napi_valuetype, ) -> napi_status { let env = check_env!(env); check_arg!(env, value); check_arg!(env, result); let Some(ty) = get_value_type(value.unwrap()) else { return napi_set_last_error(env, napi_invalid_arg); }; unsafe { *result = ty; } napi_clear_last_error(env) } #[napi_sym] fn napi_get_undefined(env: *mut Env, result: *mut napi_value) -> napi_status { let env = check_env!(env); check_arg!(env, result); unsafe { *result = v8::undefined(&mut env.scope()).into(); } return napi_clear_last_error(env); } #[napi_sym] fn napi_get_null(env: *mut Env, result: *mut napi_value) -> napi_status { let env = check_env!(env); check_arg!(env, result); unsafe { *result = v8::null(&mut env.scope()).into(); } return napi_clear_last_error(env); } #[napi_sym] fn napi_get_cb_info( env: *mut Env, cbinfo: napi_callback_info, argc: *mut i32, argv: *mut napi_value, this_arg: *mut napi_value, data: *mut *mut c_void, ) -> napi_status { let env = check_env!(env); check_arg!(env, cbinfo); let cbinfo: &CallbackInfo = unsafe { &*(cbinfo as *const CallbackInfo) }; let args = unsafe { &*(cbinfo.args as *const v8::FunctionCallbackArguments) }; if !argv.is_null() { check_arg!(env, argc); let argc = unsafe { *argc as usize }; for i in 0..argc { let mut arg = args.get(i as _); unsafe { *argv.add(i) = arg.into(); } } } if !argc.is_null() { unsafe { *argc = args.length(); } } if !this_arg.is_null() { unsafe { *this_arg = args.this().into(); } } if !data.is_null() { unsafe { *data = cbinfo.cb_info; } } napi_clear_last_error(env); napi_ok } #[napi_sym] fn napi_get_new_target( env: *mut Env, cbinfo: napi_callback_info, result: *mut napi_value, ) -> napi_status { let env = check_env!(env); check_arg!(env, cbinfo); check_arg!(env, result); let cbinfo: &CallbackInfo = unsafe { &*(cbinfo as *const CallbackInfo) }; let args = unsafe { &*(cbinfo.args as *const v8::FunctionCallbackArguments) }; unsafe { *result = args.new_target().into(); } return napi_clear_last_error(env); } #[napi_sym] fn napi_call_function( env_ptr: *mut Env, recv: napi_value, func: napi_value, argc: usize, argv: *const napi_value, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, recv); let args = if argc > 0 { check_arg!(env, argv); unsafe { std::slice::from_raw_parts(argv as *mut v8::Local, argc) } } else { &[] }; let Some(func) = func.and_then(|f| v8::Local::::try_from(f).ok()) else { return napi_set_last_error(env, napi_function_expected); }; let Some(v) = func.call(&mut env.scope(), recv.unwrap(), args) else { return napi_set_last_error(env_ptr, napi_generic_failure); }; if !result.is_null() { unsafe { *result = v.into(); } } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_get_global(env_ptr: *mut Env, result: *mut napi_value) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, result); let global = v8::Local::new(&mut env.scope(), &env.global); unsafe { *result = global.into(); } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_throw(env: *mut Env, error: napi_value) -> napi_status { let env = check_env!(env); check_arg!(env, error); if env.last_exception.is_some() { return napi_pending_exception; } let error = error.unwrap(); env.scope().throw_exception(error); let error = v8::Global::new(&mut env.scope(), error); env.last_exception = Some(error); napi_clear_last_error(env) } macro_rules! napi_throw_error_impl { ($env:ident, $code:ident, $msg:ident, $error:ident) => {{ let env = check_env!($env); let env_ptr = env as *mut Env; let code = $code; let msg = $msg; if env.last_exception.is_some() { return napi_pending_exception; } let str_ = match unsafe { check_new_from_utf8(env, msg) } { Ok(s) => s, Err(status) => return status, }; let error = v8::Exception::$error(&mut env.scope(), str_); if !code.is_null() { let error_obj: v8::Local = error.try_into().unwrap(); let code = match unsafe { check_new_from_utf8(env_ptr, code) } { Ok(s) => s, Err(status) => return napi_set_last_error(env, status), }; let code_key = v8::String::new(&mut env.scope(), "code").unwrap(); if !error_obj .set(&mut env.scope(), code_key.into(), code.into()) .unwrap_or(false) { return napi_set_last_error(env, napi_generic_failure); } } env.scope().throw_exception(error); let error = v8::Global::new(&mut env.scope(), error); env.last_exception = Some(error); napi_clear_last_error(env) }}; } #[napi_sym] fn napi_throw_error( env: *mut Env, code: *const c_char, msg: *const c_char, ) -> napi_status { napi_throw_error_impl!(env, code, msg, error) } #[napi_sym] fn napi_throw_type_error( env: *mut Env, code: *const c_char, msg: *const c_char, ) -> napi_status { napi_throw_error_impl!(env, code, msg, type_error) } #[napi_sym] fn napi_throw_range_error( env: *mut Env, code: *const c_char, msg: *const c_char, ) -> napi_status { napi_throw_error_impl!(env, code, msg, range_error) } #[napi_sym] fn node_api_throw_syntax_error( env: *mut Env, code: *const c_char, msg: *const c_char, ) -> napi_status { napi_throw_error_impl!(env, code, msg, syntax_error) } #[napi_sym] fn napi_is_error( env: *mut Env, value: napi_value, result: *mut bool, ) -> napi_status { let env = check_env!(env); check_arg!(env, value); check_arg!(env, result); unsafe { *result = value.unwrap().is_native_error(); } return napi_clear_last_error(env); } #[napi_sym] fn napi_get_value_double( env_ptr: *mut Env, value: napi_value, result: *mut f64, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, value); check_arg!(env, result); let Some(number) = value.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env_ptr, napi_number_expected); }; unsafe { *result = number.value(); } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_get_value_int32( env_ptr: *mut Env, value: napi_value, result: *mut i32, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, value); check_arg!(env, result); let Some(value) = value.unwrap().int32_value(&mut env.scope()) else { return napi_set_last_error(env, napi_number_expected); }; unsafe { *result = value; } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_get_value_uint32( env_ptr: *mut Env, value: napi_value, result: *mut u32, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, value); check_arg!(env, result); let Some(value) = value.unwrap().uint32_value(&mut env.scope()) else { return napi_set_last_error(env, napi_number_expected); }; unsafe { *result = value; } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_get_value_int64( env_ptr: *mut Env, value: napi_value, result: *mut i64, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, value); check_arg!(env, result); let Some(number) = value.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env_ptr, napi_number_expected); }; let value = number.value(); unsafe { if value.is_finite() { *result = value as _; } else { *result = 0; } } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_get_value_bigint_int64( env_ptr: *mut Env, value: napi_value, result: *mut i64, lossless: *mut bool, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, value); check_arg!(env, result); check_arg!(env, lossless); let Some(bigint) = value.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env_ptr, napi_bigint_expected); }; let (result_, lossless_) = bigint.i64_value(); unsafe { *result = result_; *lossless = lossless_; } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_get_value_bigint_uint64( env_ptr: *mut Env, value: napi_value, result: *mut u64, lossless: *mut bool, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, value); check_arg!(env, result); check_arg!(env, lossless); let Some(bigint) = value.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env_ptr, napi_bigint_expected); }; let (result_, lossless_) = bigint.u64_value(); unsafe { *result = result_; *lossless = lossless_; } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_get_value_bigint_words( env_ptr: *mut Env, value: napi_value, sign_bit: *mut i32, word_count: *mut usize, words: *mut u64, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, value); check_arg!(env, word_count); let Some(bigint) = value.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env_ptr, napi_bigint_expected); }; let word_count_int; if sign_bit.is_null() && words.is_null() { word_count_int = bigint.word_count(); } else { check_arg!(env, sign_bit); check_arg!(env, words); let out_words = unsafe { std::slice::from_raw_parts_mut(words, *word_count) }; let (sign, slice_) = bigint.to_words_array(out_words); word_count_int = slice_.len(); unsafe { *sign_bit = sign as i32; } } unsafe { *word_count = word_count_int; } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_get_value_bool( env_ptr: *mut Env, value: napi_value, result: *mut bool, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, value); check_arg!(env, result); let Some(boolean) = value.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env_ptr, napi_boolean_expected); }; unsafe { *result = boolean.is_true(); } return napi_clear_last_error(env_ptr); } #[napi_sym] fn napi_get_value_string_latin1( env_ptr: *mut Env, value: napi_value, buf: *mut c_char, bufsize: usize, result: *mut usize, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, value); let Some(value) = value.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env_ptr, napi_string_expected); }; if buf.is_null() { check_arg!(env, result); unsafe { *result = value.length(); } } else if bufsize != 0 { let buffer = unsafe { std::slice::from_raw_parts_mut(buf as _, bufsize - 1) }; let copied = value.write_one_byte( &mut env.scope(), buffer, 0, v8::WriteOptions::NO_NULL_TERMINATION, ); unsafe { buf.add(copied).write(0); } if !result.is_null() { unsafe { *result = copied; } } } else if !result.is_null() { unsafe { *result = 0; } } napi_clear_last_error(env_ptr) } #[napi_sym] fn napi_get_value_string_utf8( env_ptr: *mut Env, value: napi_value, buf: *mut u8, bufsize: usize, result: *mut usize, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, value); let Some(value) = value.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env_ptr, napi_string_expected); }; if buf.is_null() { check_arg!(env, result); unsafe { *result = value.utf8_length(env.isolate()); } } else if bufsize != 0 { let buffer = unsafe { std::slice::from_raw_parts_mut(buf as _, bufsize - 1) }; let copied = value.write_utf8( &mut env.scope(), buffer, None, v8::WriteOptions::REPLACE_INVALID_UTF8 | v8::WriteOptions::NO_NULL_TERMINATION, ); unsafe { buf.add(copied).write(0); } if !result.is_null() { unsafe { *result = copied; } } } else if !result.is_null() { unsafe { *result = 0; } } napi_clear_last_error(env_ptr) } #[napi_sym] fn napi_get_value_string_utf16( env_ptr: *mut Env, value: napi_value, buf: *mut u16, bufsize: usize, result: *mut usize, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, value); let Some(value) = value.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env_ptr, napi_string_expected); }; if buf.is_null() { check_arg!(env, result); unsafe { *result = value.length(); } } else if bufsize != 0 { let buffer = unsafe { std::slice::from_raw_parts_mut(buf as _, bufsize - 1) }; let copied = value.write( &mut env.scope(), buffer, 0, v8::WriteOptions::NO_NULL_TERMINATION, ); unsafe { buf.add(copied).write(0); } if !result.is_null() { unsafe { *result = copied; } } } else if !result.is_null() { unsafe { *result = 0; } } napi_clear_last_error(env_ptr) } #[napi_sym] fn napi_coerce_to_bool<'s>( env: &'s mut Env, value: napi_value, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, value); check_arg!(env, result); let coerced = value.unwrap().to_boolean(&mut env.scope()); unsafe { *result = coerced.into(); } napi_ok } #[napi_sym] fn napi_coerce_to_number<'s>( env: &'s mut Env, value: napi_value, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, value); check_arg!(env, result); let Some(coerced) = value.unwrap().to_number(&mut env.scope()) else { return napi_number_expected; }; unsafe { *result = coerced.into(); } napi_ok } #[napi_sym] fn napi_coerce_to_object<'s>( env: &'s mut Env, value: napi_value, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, value); check_arg!(env, result); let Some(coerced) = value.unwrap().to_object(&mut env.scope()) else { return napi_object_expected; }; unsafe { *result = coerced.into(); } napi_ok } #[napi_sym] fn napi_coerce_to_string<'s>( env: &'s mut Env, value: napi_value, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, value); check_arg!(env, result); let Some(coerced) = value.unwrap().to_string(&mut env.scope()) else { return napi_string_expected; }; unsafe { *result = coerced.into(); } napi_ok } #[napi_sym] fn napi_wrap( env: &mut Env, js_object: napi_value, native_object: *mut c_void, finalize_cb: Option, finalize_hint: *mut c_void, result: *mut napi_ref, ) -> napi_status { check_arg!(env, js_object); let env_ptr = env as *mut Env; let Some(obj) = js_object.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_invalid_arg; }; let napi_wrap = v8::Local::new(&mut env.scope(), &env.shared().napi_wrap); if obj .has_private(&mut env.scope(), napi_wrap) .unwrap_or(false) { return napi_invalid_arg; } if !result.is_null() { check_arg!(env, finalize_cb); } let ownership = if result.is_null() { ReferenceOwnership::Runtime } else { ReferenceOwnership::Userland }; let reference = Reference::new( env_ptr, obj.into(), 0, ownership, finalize_cb, native_object, finalize_hint, ); let reference = Reference::into_raw(reference) as *mut c_void; if !result.is_null() { check_arg!(env, finalize_cb); unsafe { *result = reference; } } let external = v8::External::new(&mut env.scope(), reference); assert!(obj .set_private(&mut env.scope(), napi_wrap, external.into()) .unwrap()); napi_ok } fn unwrap( env: &mut Env, obj: napi_value, result: *mut *mut c_void, keep: bool, ) -> napi_status { check_arg!(env, obj); if keep { check_arg!(env, result); } let Some(obj) = obj.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_invalid_arg; }; let napi_wrap = v8::Local::new(&mut env.scope(), &env.shared().napi_wrap); let Some(val) = obj.get_private(&mut env.scope(), napi_wrap) else { return napi_invalid_arg; }; let Ok(external) = v8::Local::::try_from(val) else { return napi_invalid_arg; }; let reference = external.value() as *mut Reference; let reference = unsafe { &mut *reference }; if !result.is_null() { unsafe { *result = reference.finalize_data; } } if !keep { assert!(obj .delete_private(&mut env.scope(), napi_wrap) .unwrap_or(false)); unsafe { Reference::remove(reference) }; } napi_ok } #[napi_sym] fn napi_unwrap( env: &mut Env, obj: napi_value, result: *mut *mut c_void, ) -> napi_status { unwrap(env, obj, result, true) } #[napi_sym] fn napi_remove_wrap( env: &mut Env, obj: napi_value, result: *mut *mut c_void, ) -> napi_status { unwrap(env, obj, result, false) } struct ExternalWrapper { data: *mut c_void, type_tag: Option, } #[napi_sym] fn napi_create_external<'s>( env: &'s mut Env, data: *mut c_void, finalize_cb: Option, finalize_hint: *mut c_void, result: *mut napi_value<'s>, ) -> napi_status { let env_ptr = env as *mut Env; check_arg!(env, result); let wrapper = Box::new(ExternalWrapper { data, type_tag: None, }); let wrapper = Box::into_raw(wrapper); let external = v8::External::new(&mut env.scope(), wrapper as _); if let Some(finalize_cb) = finalize_cb { Reference::into_raw(Reference::new( env_ptr, external.into(), 0, ReferenceOwnership::Runtime, Some(finalize_cb), data, finalize_hint, )); } unsafe { *result = external.into(); } napi_ok } #[napi_sym] fn napi_type_tag_object( env: &mut Env, object_or_external: napi_value, type_tag: *const napi_type_tag, ) -> napi_status { check_arg!(env, object_or_external); check_arg!(env, type_tag); let val = object_or_external.unwrap(); if let Ok(external) = v8::Local::::try_from(val) { let wrapper_ptr = external.value() as *mut ExternalWrapper; let wrapper = unsafe { &mut *wrapper_ptr }; if wrapper.type_tag.is_some() { return napi_invalid_arg; } wrapper.type_tag = Some(unsafe { *type_tag }); return napi_ok; } let Some(object) = val.to_object(&mut env.scope()) else { return napi_object_expected; }; let key = v8::Local::new(&mut env.scope(), &env.shared().type_tag); if object.has_private(&mut env.scope(), key).unwrap_or(false) { return napi_invalid_arg; } let slice = unsafe { std::slice::from_raw_parts(type_tag as *const u64, 2) }; let Some(tag) = v8::BigInt::new_from_words(&mut env.scope(), false, slice) else { return napi_generic_failure; }; if !object .set_private(&mut env.scope(), key, tag.into()) .unwrap_or(false) { return napi_generic_failure; } napi_ok } #[napi_sym] fn napi_check_object_type_tag( env: &mut Env, object_or_external: napi_value, type_tag: *const napi_type_tag, result: *mut bool, ) -> napi_status { check_arg!(env, object_or_external); check_arg!(env, type_tag); check_arg!(env, result); let type_tag = unsafe { *type_tag }; let val = object_or_external.unwrap(); if let Ok(external) = v8::Local::::try_from(val) { let wrapper_ptr = external.value() as *mut ExternalWrapper; let wrapper = unsafe { &mut *wrapper_ptr }; unsafe { *result = match wrapper.type_tag { Some(t) => t == type_tag, None => false, }; }; return napi_ok; } let Some(object) = val.to_object(&mut env.scope()) else { return napi_object_expected; }; let key = v8::Local::new(&mut env.scope(), &env.shared().type_tag); let Some(val) = object.get_private(&mut env.scope(), key) else { return napi_generic_failure; }; unsafe { *result = false; } if let Ok(bigint) = v8::Local::::try_from(val) { let mut words = [0u64; 2]; let (sign, words) = bigint.to_words_array(&mut words); if !sign { let pass = if words.len() == 2 { type_tag.lower == words[0] && type_tag.upper == words[1] } else if words.len() == 1 { type_tag.lower == words[0] && type_tag.upper == 0 } else if words.is_empty() { type_tag.lower == 0 && type_tag.upper == 0 } else { false }; unsafe { *result = pass; } } } napi_ok } #[napi_sym] fn napi_get_value_external( env: *mut Env, value: napi_value, result: *mut *mut c_void, ) -> napi_status { let env = check_env!(env); check_arg!(env, value); check_arg!(env, result); let Some(external) = value.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env, napi_invalid_arg); }; let wrapper_ptr = external.value() as *const ExternalWrapper; let wrapper = unsafe { &*wrapper_ptr }; unsafe { *result = wrapper.data; } napi_clear_last_error(env) } #[napi_sym] fn napi_create_reference( env: *mut Env, value: napi_value, initial_refcount: u32, result: *mut napi_ref, ) -> napi_status { let env = check_env!(env); check_arg!(env, value); check_arg!(env, result); let value = value.unwrap(); let reference = Reference::new( env, value, initial_refcount, ReferenceOwnership::Userland, None, std::ptr::null_mut(), std::ptr::null_mut(), ); let ptr = Reference::into_raw(reference); unsafe { *result = ptr as _; } napi_clear_last_error(env) } #[napi_sym] fn napi_delete_reference(env: *mut Env, ref_: napi_ref) -> napi_status { let env = check_env!(env); check_arg!(env, ref_); let reference = unsafe { Reference::from_raw(ref_ as _) }; drop(reference); napi_clear_last_error(env) } #[napi_sym] fn napi_reference_ref( env: *mut Env, ref_: napi_ref, result: *mut u32, ) -> napi_status { let env = check_env!(env); check_arg!(env, ref_); let reference = unsafe { &mut *(ref_ as *mut Reference) }; let count = reference.ref_(); if !result.is_null() { unsafe { *result = count; } } napi_clear_last_error(env) } #[napi_sym] fn napi_reference_unref( env: *mut Env, ref_: napi_ref, result: *mut u32, ) -> napi_status { let env = check_env!(env); check_arg!(env, ref_); let reference = unsafe { &mut *(ref_ as *mut Reference) }; if reference.ref_count == 0 { return napi_set_last_error(env, napi_generic_failure); } let count = reference.unref(); if !result.is_null() { unsafe { *result = count; } } napi_clear_last_error(env) } #[napi_sym] fn napi_get_reference_value( env_ptr: *mut Env, ref_: napi_ref, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, ref_); check_arg!(env, result); let reference = unsafe { &mut *(ref_ as *mut Reference) }; let value = match &reference.state { ReferenceState::Strong(g) => Some(v8::Local::new(&mut env.scope(), g)), ReferenceState::Weak(w) => w.to_local(&mut env.scope()), }; unsafe { *result = value.into(); } napi_clear_last_error(env_ptr) } #[napi_sym] fn napi_open_handle_scope( env: *mut Env, _result: *mut napi_handle_scope, ) -> napi_status { let env = check_env!(env); napi_clear_last_error(env) } #[napi_sym] fn napi_close_handle_scope( env: *mut Env, _scope: napi_handle_scope, ) -> napi_status { let env = check_env!(env); napi_clear_last_error(env) } #[napi_sym] fn napi_open_escapable_handle_scope( env: *mut Env, _result: *mut napi_escapable_handle_scope, ) -> napi_status { let env = check_env!(env); napi_clear_last_error(env) } #[napi_sym] fn napi_close_escapable_handle_scope( env: *mut Env, _scope: napi_escapable_handle_scope, ) -> napi_status { let env = check_env!(env); napi_clear_last_error(env) } #[napi_sym] fn napi_escape_handle<'s>( env: *mut Env, _scope: napi_escapable_handle_scope, escapee: napi_value<'s>, result: *mut napi_value<'s>, ) -> napi_status { let env = check_env!(env); unsafe { *result = escapee; } napi_clear_last_error(env) } #[napi_sym] fn napi_new_instance<'s>( env: &'s mut Env, constructor: napi_value, argc: usize, argv: *const napi_value, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, constructor); if argc > 0 { check_arg!(env, argv); } check_arg!(env, result); let Some(func) = constructor.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_invalid_arg; }; let args = if argc > 0 { unsafe { std::slice::from_raw_parts(argv as *mut v8::Local, argc) } } else { &[] }; let Some(value) = func.new_instance(&mut env.scope(), args) else { return napi_pending_exception; }; unsafe { *result = value.into(); } napi_ok } #[napi_sym] fn napi_instanceof( env: &mut Env, object: napi_value, constructor: napi_value, result: *mut bool, ) -> napi_status { check_arg!(env, object); check_arg!(env, result); let Some(ctor) = constructor.and_then(|v| v.to_object(&mut env.scope())) else { return napi_object_expected; }; if !ctor.is_function() { unsafe { napi_throw_type_error( env, "ERR_NAPI_CONS_FUNCTION\0".as_ptr() as _, "Constructor must be a function\0".as_ptr() as _, ); } return napi_function_expected; } let Some(res) = object.unwrap().instance_of(&mut env.scope(), ctor) else { return napi_generic_failure; }; unsafe { *result = res; } napi_ok } #[napi_sym] fn napi_is_exception_pending( env_ptr: *mut Env, result: *mut bool, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, result); unsafe { *result = env.last_exception.is_some(); } napi_clear_last_error(env_ptr) } #[napi_sym] fn napi_get_and_clear_last_exception( env_ptr: *mut Env, result: *mut napi_value, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, result); let ex: v8::Local = if let Some(last_exception) = env.last_exception.take() { v8::Local::new(&mut env.scope(), last_exception) } else { v8::undefined(&mut env.scope()).into() }; unsafe { *result = ex.into(); } napi_clear_last_error(env_ptr) } #[napi_sym] fn napi_is_arraybuffer( env: *mut Env, value: napi_value, result: *mut bool, ) -> napi_status { let env = check_env!(env); check_arg!(env, value); check_arg!(env, result); unsafe { *result = value.unwrap().is_array_buffer(); } napi_clear_last_error(env) } #[napi_sym] fn napi_create_arraybuffer<'s>( env: &'s mut Env, len: usize, data: *mut *mut c_void, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, result); let buffer = v8::ArrayBuffer::new(&mut env.scope(), len); if !data.is_null() { unsafe { *data = get_array_buffer_ptr(buffer); } } unsafe { *result = buffer.into(); } napi_ok } #[napi_sym] fn napi_create_external_arraybuffer<'s>( env: &'s mut Env, data: *mut c_void, byte_length: usize, finalize_cb: napi_finalize, finalize_hint: *mut c_void, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, result); let store = make_external_backing_store( env, data, byte_length, std::ptr::null_mut(), finalize_cb, finalize_hint, ); let ab = v8::ArrayBuffer::with_backing_store(&mut env.scope(), &store.make_shared()); let value: v8::Local = ab.into(); unsafe { *result = value.into(); } napi_ok } #[napi_sym] fn napi_get_arraybuffer_info( env: *mut Env, value: napi_value, data: *mut *mut c_void, length: *mut usize, ) -> napi_status { let env = check_env!(env); check_arg!(env, value); let Some(buf) = value.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env, napi_invalid_arg); }; if !data.is_null() { unsafe { *data = get_array_buffer_ptr(buf); } } if !length.is_null() { unsafe { *length = buf.byte_length(); } } napi_ok } #[napi_sym] fn napi_is_typedarray( env: *mut Env, value: napi_value, result: *mut bool, ) -> napi_status { let env = check_env!(env); check_arg!(env, value); check_arg!(env, result); unsafe { *result = value.unwrap().is_typed_array(); } napi_ok } #[napi_sym] fn napi_create_typedarray<'s>( env: &'s mut Env, ty: napi_typedarray_type, length: usize, arraybuffer: napi_value, byte_offset: usize, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, arraybuffer); check_arg!(env, result); let Some(ab) = arraybuffer.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_arraybuffer_expected; }; macro_rules! create { ($TypedArray:ident, $size_of_element:expr) => {{ let soe = $size_of_element; if soe > 1 && byte_offset % soe != 0 { let message = v8::String::new( &mut env.scope(), format!( "start offset of {} should be multiple of {}", stringify!($TypedArray), soe ) .as_str(), ) .unwrap(); let exc = v8::Exception::range_error(&mut env.scope(), message); env.scope().throw_exception(exc); return napi_pending_exception; } if length * soe + byte_offset > ab.byte_length() { let message = v8::String::new(&mut env.scope(), "Invalid typed array length") .unwrap(); let exc = v8::Exception::range_error(&mut env.scope(), message); env.scope().throw_exception(exc); return napi_pending_exception; } let Some(ta) = v8::$TypedArray::new(&mut env.scope(), ab, byte_offset, length) else { return napi_generic_failure; }; ta.into() }}; } let typedarray: v8::Local = match ty { napi_uint8_array => create!(Uint8Array, 1), napi_uint8_clamped_array => create!(Uint8ClampedArray, 1), napi_int8_array => create!(Int8Array, 1), napi_uint16_array => create!(Uint16Array, 2), napi_int16_array => create!(Int16Array, 2), napi_uint32_array => create!(Uint32Array, 4), napi_int32_array => create!(Int32Array, 4), napi_float32_array => create!(Float32Array, 4), napi_float64_array => create!(Float64Array, 8), napi_bigint64_array => create!(BigInt64Array, 8), napi_biguint64_array => create!(BigUint64Array, 8), _ => { return napi_invalid_arg; } }; unsafe { *result = typedarray.into(); } napi_ok } #[napi_sym] fn napi_get_typedarray_info( env_ptr: *mut Env, typedarray: napi_value, type_: *mut napi_typedarray_type, length: *mut usize, data: *mut *mut c_void, arraybuffer: *mut napi_value, byte_offset: *mut usize, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, typedarray); let Some(array) = typedarray.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env_ptr, napi_invalid_arg); }; if !type_.is_null() { let tatype = if array.is_int8_array() { napi_int8_array } else if array.is_uint8_array() { napi_uint8_array } else if array.is_uint8_clamped_array() { napi_uint8_clamped_array } else if array.is_int16_array() { napi_int16_array } else if array.is_uint16_array() { napi_uint16_array } else if array.is_int32_array() { napi_int32_array } else if array.is_uint32_array() { napi_uint32_array } else if array.is_float32_array() { napi_float32_array } else if array.is_float64_array() { napi_float64_array } else if array.is_big_int64_array() { napi_bigint64_array } else if array.is_big_uint64_array() { napi_biguint64_array } else { unreachable!(); }; unsafe { *type_ = tatype; } } if !length.is_null() { unsafe { *length = array.length(); } } if !data.is_null() { unsafe { *data = array.data(); } } if !arraybuffer.is_null() { let buf = array.buffer(&mut env.scope()).unwrap(); unsafe { *arraybuffer = buf.into(); } } if !byte_offset.is_null() { unsafe { *byte_offset = array.byte_offset(); } } napi_clear_last_error(env_ptr) } #[napi_sym] fn napi_create_dataview<'s>( env: &'s mut Env, byte_length: usize, arraybuffer: napi_value<'s>, byte_offset: usize, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, arraybuffer); check_arg!(env, result); let Some(buffer) = arraybuffer.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_invalid_arg; }; if byte_length + byte_offset > buffer.byte_length() { unsafe { return napi_throw_range_error( env, "ERR_NAPI_INVALID_DATAVIEW_ARGS\0".as_ptr() as _, "byte_offset + byte_length should be less than or equal to the size in bytes of the array passed in\0".as_ptr() as _, ); } } let dataview = v8::DataView::new(&mut env.scope(), buffer, byte_offset, byte_length); unsafe { *result = dataview.into(); } napi_ok } #[napi_sym] fn napi_is_dataview( env: *mut Env, value: napi_value, result: *mut bool, ) -> napi_status { let env = check_env!(env); check_arg!(env, value); check_arg!(env, result); unsafe { *result = value.unwrap().is_data_view(); } napi_clear_last_error(env) } #[napi_sym] fn napi_get_dataview_info( env_ptr: *mut Env, dataview: napi_value, byte_length: *mut usize, data: *mut *mut c_void, arraybuffer: *mut napi_value, byte_offset: *mut usize, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, dataview); let Some(array) = dataview.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_invalid_arg; }; if !byte_length.is_null() { unsafe { *byte_length = array.byte_length(); } } if !arraybuffer.is_null() { let Some(buffer) = array.buffer(&mut env.scope()) else { return napi_generic_failure; }; unsafe { *arraybuffer = buffer.into(); } } if !data.is_null() { unsafe { *data = array.data(); } } if !byte_offset.is_null() { unsafe { *byte_offset = array.byte_offset(); } } napi_clear_last_error(env_ptr) } #[napi_sym] fn napi_get_version(env: *mut Env, result: *mut u32) -> napi_status { let env = check_env!(env); check_arg!(env, result); unsafe { *result = NAPI_VERSION; } napi_clear_last_error(env) } #[napi_sym] fn napi_create_promise<'s>( env: &'s mut Env, deferred: *mut napi_deferred, promise: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, deferred); check_arg!(env, promise); let resolver = v8::PromiseResolver::new(&mut env.scope()).unwrap(); let global = v8::Global::new(&mut env.scope(), resolver); let global_ptr = global.into_raw().as_ptr() as napi_deferred; let p = resolver.get_promise(&mut env.scope()); unsafe { *deferred = global_ptr; } unsafe { *promise = p.into(); } napi_ok } #[napi_sym] fn napi_resolve_deferred( env: &mut Env, deferred: napi_deferred, result: napi_value, ) -> napi_status { check_arg!(env, result); check_arg!(env, deferred); let deferred_ptr = unsafe { NonNull::new_unchecked(deferred as *mut v8::PromiseResolver) }; let global = unsafe { v8::Global::from_raw(env.isolate(), deferred_ptr) }; let resolver = v8::Local::new(&mut env.scope(), global); if !resolver .resolve(&mut env.scope(), result.unwrap()) .unwrap_or(false) { return napi_generic_failure; } napi_ok } #[napi_sym] fn napi_reject_deferred( env: &mut Env, deferred: napi_deferred, result: napi_value, ) -> napi_status { check_arg!(env, result); check_arg!(env, deferred); let deferred_ptr = unsafe { NonNull::new_unchecked(deferred as *mut v8::PromiseResolver) }; let global = unsafe { v8::Global::from_raw(env.isolate(), deferred_ptr) }; let resolver = v8::Local::new(&mut env.scope(), global); if !resolver .reject(&mut env.scope(), result.unwrap()) .unwrap_or(false) { return napi_generic_failure; } napi_ok } #[napi_sym] fn napi_is_promise( env: *mut Env, value: napi_value, is_promise: *mut bool, ) -> napi_status { let env = check_env!(env); check_arg!(env, value); check_arg!(env, is_promise); unsafe { *is_promise = value.unwrap().is_promise(); } napi_clear_last_error(env) } #[napi_sym] fn napi_create_date<'s>( env: &'s mut Env, time: f64, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, result); let Some(date) = v8::Date::new(&mut env.scope(), time) else { return napi_generic_failure; }; unsafe { *result = date.into(); } napi_ok } #[napi_sym] fn napi_is_date( env: *mut Env, value: napi_value, is_date: *mut bool, ) -> napi_status { let env = check_env!(env); check_arg!(env, value); check_arg!(env, is_date); unsafe { *is_date = value.unwrap().is_date(); } napi_clear_last_error(env) } #[napi_sym] fn napi_get_date_value( env: &mut Env, value: napi_value, result: *mut f64, ) -> napi_status { check_arg!(env, result); let Some(date) = value.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_date_expected; }; unsafe { *result = date.value_of(); } napi_ok } #[napi_sym] fn napi_run_script<'s>( env: &'s mut Env, script: napi_value, result: *mut napi_value<'s>, ) -> napi_status { check_arg!(env, script); check_arg!(env, result); let Some(script) = script.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_string_expected; }; let Some(script) = v8::Script::compile(&mut env.scope(), script, None) else { return napi_generic_failure; }; let Some(rv) = script.run(&mut env.scope()) else { return napi_generic_failure; }; unsafe { *result = rv.into(); } napi_ok } #[napi_sym] fn napi_add_finalizer( env_ptr: *mut Env, value: napi_value, finalize_data: *mut c_void, finalize_cb: Option, finalize_hint: *mut c_void, result: *mut napi_ref, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, value); check_arg!(env, finalize_cb); let Some(value) = value.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env, napi_invalid_arg); }; let ownership = if result.is_null() { ReferenceOwnership::Runtime } else { ReferenceOwnership::Userland }; let reference = Reference::new( env, value.into(), 0, ownership, finalize_cb, finalize_data, finalize_hint, ); if !result.is_null() { unsafe { *result = Reference::into_raw(reference) as _; } } napi_clear_last_error(env_ptr) } #[napi_sym] fn node_api_post_finalizer( env: *mut Env, _finalize_cb: napi_finalize, _finalize_data: *mut c_void, _finalize_hint: *mut c_void, ) -> napi_status { napi_clear_last_error(env) } #[napi_sym] fn napi_adjust_external_memory( env: *mut Env, change_in_bytes: i64, adjusted_value: *mut i64, ) -> napi_status { let env = check_env!(env); check_arg!(env, adjusted_value); unsafe { *adjusted_value = env .isolate() .adjust_amount_of_external_allocated_memory(change_in_bytes); } napi_clear_last_error(env) } #[napi_sym] fn napi_set_instance_data( env: *mut Env, data: *mut c_void, finalize_cb: Option, finalize_hint: *mut c_void, ) -> napi_status { let env = check_env!(env); env.shared_mut().instance_data = Some(InstanceData { data, finalize_cb, finalize_hint, }); napi_clear_last_error(env) } #[napi_sym] fn napi_get_instance_data( env: *mut Env, data: *mut *mut c_void, ) -> napi_status { let env = check_env!(env); check_arg!(env, data); let instance_data = match &env.shared().instance_data { Some(v) => v.data, None => std::ptr::null_mut(), }; unsafe { *data = instance_data }; napi_clear_last_error(env) } #[napi_sym] fn napi_detach_arraybuffer(env: *mut Env, value: napi_value) -> napi_status { let env = check_env!(env); check_arg!(env, value); let Some(ab) = value.and_then(|v| v8::Local::::try_from(v).ok()) else { return napi_set_last_error(env, napi_arraybuffer_expected); }; if !ab.is_detachable() { return napi_set_last_error(env, napi_detachable_arraybuffer_expected); } // Expected to crash for None. ab.detach(None).unwrap(); napi_clear_last_error(env); napi_ok } #[napi_sym] fn napi_is_detached_arraybuffer( env_ptr: *mut Env, arraybuffer: napi_value, result: *mut bool, ) -> napi_status { let env = check_env!(env_ptr); check_arg!(env, arraybuffer); check_arg!(env, result); let is_detached = match arraybuffer .and_then(|v| v8::Local::::try_from(v).ok()) { Some(ab) => ab.was_detached(), None => false, }; unsafe { *result = is_detached; } napi_clear_last_error(env) }