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denoland-deno/ext/napi/node_api.rs

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// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
#![deny(unsafe_op_in_unsafe_fn)]
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::SendPtr;
use crate::check_arg;
use crate::check_env;
use crate::*;
use deno_core::parking_lot::Condvar;
use deno_core::parking_lot::Mutex;
use deno_core::V8CrossThreadTaskSpawner;
use napi_sym::napi_sym;
use std::sync::atomic::AtomicBool;
use std::sync::atomic::AtomicU8;
use std::sync::atomic::AtomicUsize;
use std::sync::atomic::Ordering;
use std::sync::Arc;
#[napi_sym]
fn napi_module_register(module: *const NapiModule) -> napi_status {
MODULE_TO_REGISTER.with(|cell| {
let mut slot = cell.borrow_mut();
let prev = slot.replace(module);
assert!(prev.is_none());
});
napi_ok
}
#[napi_sym]
fn napi_add_env_cleanup_hook(
env: *mut Env,
fun: Option<napi_cleanup_hook>,
arg: *mut c_void,
) -> napi_status {
let env = check_env!(env);
check_arg!(env, fun);
let fun = fun.unwrap();
env.add_cleanup_hook(fun, arg);
napi_ok
}
#[napi_sym]
fn napi_remove_env_cleanup_hook(
env: *mut Env,
fun: Option<napi_cleanup_hook>,
arg: *mut c_void,
) -> napi_status {
let env = check_env!(env);
check_arg!(env, fun);
let fun = fun.unwrap();
env.remove_cleanup_hook(fun, arg);
napi_ok
}
struct AsyncCleanupHandle {
env: *mut Env,
hook: napi_async_cleanup_hook,
data: *mut c_void,
}
unsafe extern "C" fn async_cleanup_handler(arg: *mut c_void) {
unsafe {
let handle = Box::<AsyncCleanupHandle>::from_raw(arg as _);
(handle.hook)(arg, handle.data);
}
}
#[napi_sym]
fn napi_add_async_cleanup_hook(
env: *mut Env,
hook: Option<napi_async_cleanup_hook>,
arg: *mut c_void,
remove_handle: *mut napi_async_cleanup_hook_handle,
) -> napi_status {
let env = check_env!(env);
check_arg!(env, hook);
let hook = hook.unwrap();
let handle = Box::into_raw(Box::new(AsyncCleanupHandle {
env,
hook,
data: arg,
})) as *mut c_void;
env.add_cleanup_hook(async_cleanup_handler, handle);
if !remove_handle.is_null() {
unsafe {
*remove_handle = handle;
}
}
napi_clear_last_error(env)
}
#[napi_sym]
fn napi_remove_async_cleanup_hook(
remove_handle: napi_async_cleanup_hook_handle,
) -> napi_status {
if remove_handle.is_null() {
return napi_invalid_arg;
}
let handle =
unsafe { Box::<AsyncCleanupHandle>::from_raw(remove_handle as _) };
let env = unsafe { &mut *handle.env };
env.remove_cleanup_hook(async_cleanup_handler, remove_handle);
napi_ok
}
#[napi_sym]
fn napi_fatal_exception(env: &mut Env, err: napi_value) -> napi_status {
check_arg!(env, err);
let report_error = v8::Local::new(&mut env.scope(), &env.report_error);
let this = v8::undefined(&mut env.scope());
if report_error
.call(&mut env.scope(), this.into(), &[err.unwrap()])
.is_none()
{
return napi_generic_failure;
}
napi_ok
}
#[napi_sym]
fn napi_fatal_error(
location: *const c_char,
location_len: usize,
message: *const c_char,
message_len: usize,
) -> napi_status {
let location = if location.is_null() {
None
} else {
unsafe {
Some(if location_len == NAPI_AUTO_LENGTH {
std::ffi::CStr::from_ptr(location).to_str().unwrap()
} else {
let slice = std::slice::from_raw_parts(
location as *const u8,
location_len as usize,
);
std::str::from_utf8(slice).unwrap()
})
}
};
let message = if message_len == NAPI_AUTO_LENGTH {
unsafe { std::ffi::CStr::from_ptr(message).to_str().unwrap() }
} else {
let slice = unsafe {
std::slice::from_raw_parts(message as *const u8, message_len as usize)
};
std::str::from_utf8(slice).unwrap()
};
if let Some(location) = location {
log::error!("NODE API FATAL ERROR: {} {}", location, message);
} else {
log::error!("NODE API FATAL ERROR: {}", message);
}
std::process::abort();
}
#[napi_sym]
fn napi_open_callback_scope(
env: *mut Env,
_resource_object: napi_value,
_context: napi_value,
result: *mut napi_callback_scope,
) -> napi_status {
let env = check_env!(env);
check_arg!(env, result);
// we open scope automatically when it's needed
unsafe {
*result = std::ptr::null_mut();
}
napi_clear_last_error(env)
}
#[napi_sym]
fn napi_close_callback_scope(
env: *mut Env,
scope: napi_callback_scope,
) -> napi_status {
let env = check_env!(env);
// we close scope automatically when it's needed
assert!(scope.is_null());
napi_clear_last_error(env)
}
// NOTE: we don't support "async_hooks::AsyncContext" so these APIs are noops.
#[napi_sym]
fn napi_async_init(
env: *mut Env,
_async_resource: napi_value,
_async_resource_name: napi_value,
result: *mut napi_async_context,
) -> napi_status {
let env = check_env!(env);
unsafe {
*result = ptr::null_mut();
}
napi_clear_last_error(env)
}
#[napi_sym]
fn napi_async_destroy(
env: *mut Env,
async_context: napi_async_context,
) -> napi_status {
let env = check_env!(env);
assert!(async_context.is_null());
napi_clear_last_error(env)
}
#[napi_sym]
fn napi_make_callback<'s>(
env: &'s mut Env,
_async_context: napi_async_context,
recv: napi_value,
func: napi_value,
argc: usize,
argv: *const napi_value<'s>,
result: *mut napi_value<'s>,
) -> napi_status {
check_arg!(env, recv);
if argc > 0 {
check_arg!(env, argv);
}
let Some(recv) = recv.and_then(|v| v.to_object(&mut env.scope())) else {
return napi_object_expected;
};
let Some(func) =
func.and_then(|v| v8::Local::<v8::Function>::try_from(v).ok())
else {
return napi_function_expected;
};
let args = if argc > 0 {
unsafe {
std::slice::from_raw_parts(argv as *mut v8::Local<v8::Value>, argc)
}
} else {
&[]
};
// TODO: async_context
let Some(v) = func.call(&mut env.scope(), recv.into(), args) else {
return napi_generic_failure;
};
unsafe {
*result = v.into();
}
napi_ok
}
#[napi_sym]
fn napi_create_buffer<'s>(
env: &'s mut Env,
length: usize,
data: *mut *mut c_void,
result: *mut napi_value<'s>,
) -> napi_status {
check_arg!(env, result);
let ab = v8::ArrayBuffer::new(&mut env.scope(), length);
let buffer_constructor =
v8::Local::new(&mut env.scope(), &env.buffer_constructor);
let Some(buffer) =
buffer_constructor.new_instance(&mut env.scope(), &[ab.into()])
else {
return napi_generic_failure;
};
if !data.is_null() {
unsafe {
*data = get_array_buffer_ptr(ab);
}
}
unsafe {
*result = buffer.into();
}
napi_ok
}
#[napi_sym]
fn napi_create_external_buffer<'s>(
env: &'s mut Env,
length: usize,
data: *mut c_void,
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,
length,
ptr::null_mut(),
finalize_cb,
finalize_hint,
);
let ab =
v8::ArrayBuffer::with_backing_store(&mut env.scope(), &store.make_shared());
let buffer_constructor =
v8::Local::new(&mut env.scope(), &env.buffer_constructor);
let Some(buffer) =
buffer_constructor.new_instance(&mut env.scope(), &[ab.into()])
else {
return napi_generic_failure;
};
unsafe {
*result = buffer.into();
}
napi_ok
}
#[napi_sym]
fn napi_create_buffer_copy<'s>(
env: &'s mut Env,
length: usize,
data: *mut c_void,
result_data: *mut *mut c_void,
result: *mut napi_value<'s>,
) -> napi_status {
check_arg!(env, result);
let ab = v8::ArrayBuffer::new(&mut env.scope(), length);
let buffer_constructor =
v8::Local::new(&mut env.scope(), &env.buffer_constructor);
let Some(buffer) =
buffer_constructor.new_instance(&mut env.scope(), &[ab.into()])
else {
return napi_generic_failure;
};
let ptr = get_array_buffer_ptr(ab);
unsafe {
std::ptr::copy(data, ptr, length);
}
if !result_data.is_null() {
unsafe {
*result_data = ptr;
}
}
unsafe {
*result = buffer.into();
}
napi_ok
}
#[napi_sym]
fn napi_is_buffer(
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 buffer_constructor =
v8::Local::new(&mut env.scope(), &env.buffer_constructor);
let Some(is_buffer) = value
.unwrap()
.instance_of(&mut env.scope(), buffer_constructor.into())
else {
return napi_set_last_error(env, napi_generic_failure);
};
unsafe {
*result = is_buffer;
}
napi_clear_last_error(env)
}
#[napi_sym]
fn napi_get_buffer_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);
// NB: Any TypedArray instance seems to be accepted by this function
// in Node.js.
let Some(ta) =
value.and_then(|v| v8::Local::<v8::TypedArray>::try_from(v).ok())
else {
return napi_set_last_error(env, napi_invalid_arg);
};
if !data.is_null() {
unsafe {
*data = ta.data();
}
}
if !length.is_null() {
unsafe {
*length = ta.byte_length();
}
}
napi_clear_last_error(env)
}
#[napi_sym]
fn napi_get_node_version(
env: *mut Env,
result: *mut *const napi_node_version,
) -> napi_status {
let env = check_env!(env);
check_arg!(env, result);
const NODE_VERSION: napi_node_version = napi_node_version {
major: 20,
minor: 11,
patch: 1,
release: c"Deno".as_ptr(),
};
unsafe {
*result = &NODE_VERSION as *const napi_node_version;
}
napi_clear_last_error(env)
}
struct AsyncWork {
state: AtomicU8,
env: *mut Env,
_async_resource: v8::Global<v8::Object>,
_async_resource_name: String,
execute: napi_async_execute_callback,
complete: Option<napi_async_complete_callback>,
data: *mut c_void,
}
impl AsyncWork {
const IDLE: u8 = 0;
const QUEUED: u8 = 1;
const RUNNING: u8 = 2;
}
#[napi_sym]
pub(crate) fn napi_create_async_work(
env: *mut Env,
async_resource: napi_value,
async_resource_name: napi_value,
execute: Option<napi_async_execute_callback>,
complete: Option<napi_async_complete_callback>,
data: *mut c_void,
result: *mut napi_async_work,
) -> napi_status {
let env_ptr = env;
let env = check_env!(env);
check_arg!(env, execute);
check_arg!(env, result);
let resource = if let Some(v) = *async_resource {
let Some(resource) = v.to_object(&mut env.scope()) else {
return napi_set_last_error(env, napi_object_expected);
};
resource
} else {
v8::Object::new(&mut env.scope())
};
let Some(resource_name) =
async_resource_name.and_then(|v| v.to_string(&mut env.scope()))
else {
return napi_set_last_error(env, napi_string_expected);
};
let resource_name = resource_name.to_rust_string_lossy(&mut env.scope());
let work = Box::new(AsyncWork {
state: AtomicU8::new(AsyncWork::IDLE),
env: env_ptr,
_async_resource: v8::Global::new(&mut env.scope(), resource),
_async_resource_name: resource_name,
execute: execute.unwrap(),
complete,
data,
});
unsafe {
*result = Box::into_raw(work) as _;
}
napi_clear_last_error(env)
}
#[napi_sym]
pub(crate) fn napi_delete_async_work(
env: *mut Env,
work: napi_async_work,
) -> napi_status {
let env = check_env!(env);
check_arg!(env, work);
drop(unsafe { Box::<AsyncWork>::from_raw(work as _) });
napi_clear_last_error(env)
}
#[napi_sym]
fn napi_get_uv_event_loop(
env_ptr: *mut Env,
uv_loop: *mut *mut (),
) -> napi_status {
let env = check_env!(env_ptr);
check_arg!(env, uv_loop);
unsafe {
*uv_loop = env_ptr.cast();
}
0
}
#[napi_sym]
pub(crate) fn napi_queue_async_work(
env: *mut Env,
work: napi_async_work,
) -> napi_status {
let env = check_env!(env);
check_arg!(env, work);
let work = unsafe { &*(work as *mut AsyncWork) };
let result =
work
.state
.fetch_update(Ordering::SeqCst, Ordering::SeqCst, |state| {
// allow queue if idle or if running, but not if already queued.
if state == AsyncWork::IDLE || state == AsyncWork::RUNNING {
Some(AsyncWork::QUEUED)
} else {
None
}
});
if result.is_err() {
return napi_clear_last_error(env);
}
let work = SendPtr(work);
env.add_async_work(move || {
let work = work.take();
let work = unsafe { &*work };
let state = work.state.compare_exchange(
AsyncWork::QUEUED,
AsyncWork::RUNNING,
Ordering::SeqCst,
Ordering::SeqCst,
);
if state.is_ok() {
unsafe {
(work.execute)(work.env as _, work.data);
}
// reset back to idle if its still marked as running
let _ = work.state.compare_exchange(
AsyncWork::RUNNING,
AsyncWork::IDLE,
Ordering::SeqCst,
Ordering::Relaxed,
);
}
if let Some(complete) = work.complete {
let status = if state.is_ok() {
napi_ok
} else if state == Err(AsyncWork::IDLE) {
napi_cancelled
} else {
napi_generic_failure
};
unsafe {
complete(work.env as _, status, work.data);
}
}
// `complete` probably deletes this `work`, so don't use it here.
});
napi_clear_last_error(env)
}
#[napi_sym]
fn napi_cancel_async_work(env: *mut Env, work: napi_async_work) -> napi_status {
let env = check_env!(env);
check_arg!(env, work);
let work = unsafe { &*(work as *mut AsyncWork) };
let _ = work.state.compare_exchange(
AsyncWork::QUEUED,
AsyncWork::IDLE,
Ordering::SeqCst,
Ordering::Relaxed,
);
napi_clear_last_error(env)
}
extern "C" fn default_call_js_cb(
env: napi_env,
js_callback: napi_value,
_context: *mut c_void,
_data: *mut c_void,
) {
if let Some(js_callback) = *js_callback {
if let Ok(js_callback) = v8::Local::<v8::Function>::try_from(js_callback) {
let env = unsafe { &mut *(env as *mut Env) };
let scope = &mut env.scope();
let recv = v8::undefined(scope);
js_callback.call(scope, recv.into(), &[]);
}
}
}
struct TsFn {
env: *mut Env,
func: Option<v8::Global<v8::Function>>,
max_queue_size: usize,
queue_size: Mutex<usize>,
queue_cond: Condvar,
thread_count: AtomicUsize,
thread_finalize_data: *mut c_void,
thread_finalize_cb: Option<napi_finalize>,
context: *mut c_void,
call_js_cb: napi_threadsafe_function_call_js,
_resource: v8::Global<v8::Object>,
_resource_name: String,
is_closing: AtomicBool,
is_closed: Arc<AtomicBool>,
sender: V8CrossThreadTaskSpawner,
is_ref: AtomicBool,
}
impl Drop for TsFn {
fn drop(&mut self) {
assert!(self
.is_closed
.compare_exchange(false, true, Ordering::Relaxed, Ordering::Relaxed)
.is_ok());
self.unref();
if let Some(finalizer) = self.thread_finalize_cb {
unsafe {
(finalizer)(self.env as _, self.thread_finalize_data, self.context);
}
}
}
}
impl TsFn {
pub fn acquire(&self) -> napi_status {
if self.is_closing.load(Ordering::SeqCst) {
return napi_closing;
}
self.thread_count.fetch_add(1, Ordering::Relaxed);
napi_ok
}
pub fn release(
tsfn: *mut TsFn,
mode: napi_threadsafe_function_release_mode,
) -> napi_status {
let tsfn = unsafe { &mut *tsfn };
let result = tsfn.thread_count.fetch_update(
Ordering::Relaxed,
Ordering::Relaxed,
|x| {
if x == 0 {
None
} else {
Some(x - 1)
}
},
);
if result.is_err() {
return napi_invalid_arg;
}
if (result == Ok(1) || mode == napi_tsfn_abort)
&& tsfn
.is_closing
.compare_exchange(false, true, Ordering::SeqCst, Ordering::SeqCst)
.is_ok()
{
tsfn.queue_cond.notify_all();
let tsfnptr = SendPtr(tsfn);
// drop must be queued in order to preserve ordering consistent
// with Node.js and so that the finalizer runs on the main thread.
tsfn.sender.spawn(move |_| {
let tsfn = unsafe { Box::from_raw(tsfnptr.take() as *mut TsFn) };
drop(tsfn);
});
}
napi_ok
}
pub fn ref_(&self) -> napi_status {
if self
.is_ref
.compare_exchange(false, true, Ordering::SeqCst, Ordering::SeqCst)
.is_ok()
{
let env = unsafe { &mut *self.env };
env.threadsafe_function_ref();
}
napi_ok
}
pub fn unref(&self) -> napi_status {
if self
.is_ref
.compare_exchange(true, false, Ordering::SeqCst, Ordering::SeqCst)
.is_ok()
{
let env = unsafe { &mut *self.env };
env.threadsafe_function_unref();
}
napi_ok
}
pub fn call(
&self,
data: *mut c_void,
mode: napi_threadsafe_function_call_mode,
) -> napi_status {
if self.is_closing.load(Ordering::SeqCst) {
return napi_closing;
}
if self.max_queue_size > 0 {
let mut queue_size = self.queue_size.lock();
while *queue_size >= self.max_queue_size {
if mode == napi_tsfn_blocking {
self.queue_cond.wait(&mut queue_size);
if self.is_closing.load(Ordering::SeqCst) {
return napi_closing;
}
} else {
return napi_queue_full;
}
}
*queue_size += 1;
}
let is_closed = self.is_closed.clone();
let tsfn = SendPtr(self);
let data = SendPtr(data);
let context = SendPtr(self.context);
let call_js_cb = self.call_js_cb;
self.sender.spawn(move |scope: &mut v8::HandleScope| {
let data = data.take();
// if is_closed then tsfn is freed, don't read from it.
if is_closed.load(Ordering::Relaxed) {
unsafe {
call_js_cb(
std::ptr::null_mut(),
None::<v8::Local<v8::Value>>.into(),
context.take() as _,
data as _,
);
}
} else {
let tsfn = tsfn.take();
let tsfn = unsafe { &*tsfn };
if tsfn.max_queue_size > 0 {
let mut queue_size = tsfn.queue_size.lock();
let size = *queue_size;
*queue_size -= 1;
if size == tsfn.max_queue_size {
tsfn.queue_cond.notify_one();
}
}
let func = tsfn.func.as_ref().map(|f| v8::Local::new(scope, f));
unsafe {
(tsfn.call_js_cb)(
tsfn.env as _,
func.into(),
tsfn.context,
data as _,
);
}
}
});
napi_ok
}
}
#[napi_sym]
#[allow(clippy::too_many_arguments)]
fn napi_create_threadsafe_function(
env: *mut Env,
func: napi_value,
async_resource: napi_value,
async_resource_name: napi_value,
max_queue_size: usize,
initial_thread_count: usize,
thread_finalize_data: *mut c_void,
thread_finalize_cb: Option<napi_finalize>,
context: *mut c_void,
call_js_cb: Option<napi_threadsafe_function_call_js>,
result: *mut napi_threadsafe_function,
) -> napi_status {
let env = check_env!(env);
check_arg!(env, async_resource_name);
if initial_thread_count == 0 {
return napi_set_last_error(env, napi_invalid_arg);
}
check_arg!(env, result);
let func = if let Some(value) = *func {
let Ok(func) = v8::Local::<v8::Function>::try_from(value) else {
return napi_set_last_error(env, napi_function_expected);
};
Some(v8::Global::new(&mut env.scope(), func))
} else {
check_arg!(env, call_js_cb);
None
};
let resource = if let Some(v) = *async_resource {
let Some(resource) = v.to_object(&mut env.scope()) else {
return napi_set_last_error(env, napi_object_expected);
};
resource
} else {
v8::Object::new(&mut env.scope())
};
let resource = v8::Global::new(&mut env.scope(), resource);
let Some(resource_name) =
async_resource_name.and_then(|v| v.to_string(&mut env.scope()))
else {
return napi_set_last_error(env, napi_string_expected);
};
let resource_name = resource_name.to_rust_string_lossy(&mut env.scope());
let tsfn = Box::new(TsFn {
env,
func,
max_queue_size,
queue_size: Mutex::new(0),
queue_cond: Condvar::new(),
thread_count: AtomicUsize::new(initial_thread_count),
thread_finalize_data,
thread_finalize_cb,
context,
call_js_cb: call_js_cb.unwrap_or(default_call_js_cb),
_resource: resource,
_resource_name: resource_name,
is_closing: AtomicBool::new(false),
is_closed: Arc::new(AtomicBool::new(false)),
is_ref: AtomicBool::new(false),
sender: env.async_work_sender.clone(),
});
tsfn.ref_();
unsafe {
*result = Box::into_raw(tsfn) as _;
}
napi_clear_last_error(env)
}
/// Maybe called from any thread.
#[napi_sym]
fn napi_get_threadsafe_function_context(
func: napi_threadsafe_function,
result: *mut *const c_void,
) -> napi_status {
assert!(!func.is_null());
let tsfn = unsafe { &*(func as *const TsFn) };
unsafe {
*result = tsfn.context;
}
napi_ok
}
#[napi_sym]
fn napi_call_threadsafe_function(
func: napi_threadsafe_function,
data: *mut c_void,
is_blocking: napi_threadsafe_function_call_mode,
) -> napi_status {
assert!(!func.is_null());
let tsfn = unsafe { &*(func as *mut TsFn) };
tsfn.call(data, is_blocking)
}
#[napi_sym]
fn napi_acquire_threadsafe_function(
tsfn: napi_threadsafe_function,
) -> napi_status {
assert!(!tsfn.is_null());
let tsfn = unsafe { &*(tsfn as *mut TsFn) };
tsfn.acquire()
}
#[napi_sym]
fn napi_release_threadsafe_function(
tsfn: napi_threadsafe_function,
mode: napi_threadsafe_function_release_mode,
) -> napi_status {
assert!(!tsfn.is_null());
TsFn::release(tsfn as _, mode)
}
#[napi_sym]
fn napi_unref_threadsafe_function(
_env: &mut Env,
func: napi_threadsafe_function,
) -> napi_status {
assert!(!func.is_null());
let tsfn = unsafe { &*(func as *mut TsFn) };
tsfn.unref()
}
#[napi_sym]
fn napi_ref_threadsafe_function(
_env: &mut Env,
func: napi_threadsafe_function,
) -> napi_status {
assert!(!func.is_null());
let tsfn = unsafe { &*(func as *mut TsFn) };
tsfn.ref_()
}
#[napi_sym]
fn node_api_get_module_file_name(
env: *mut Env,
result: *mut *const c_char,
) -> napi_status {
let env = check_env!(env);
check_arg!(env, result);
unsafe {
*result = env.shared().filename.as_ptr() as _;
}
napi_clear_last_error(env)
}