#![deny(clippy::all)] #![forbid(unsafe_op_in_unsafe_fn)] #![allow(non_upper_case_globals)] //! High level Node.js [N-API](https://nodejs.org/api/n-api.html) binding //! //! **napi-rs** provides minimal overhead to write N-API modules in `Rust`. //! //! ## Feature flags //! //! ### napi1 ~ napi8 //! //! Because `Node.js` N-API has versions. So there are feature flags to choose what version of `N-API` you want to build for. //! For example, if you want build a library which can be used by `node@10.17.0`, you should choose the `napi5` or lower. //! //! The details of N-API versions and support matrix: [n_api_version_matrix](https://nodejs.org/api/n-api.html#n_api_n_api_version_matrix) //! //! ### tokio_rt //! With `tokio_rt` feature, `napi-rs` provides a ***tokio runtime*** in an additional thread. //! And you can easily run tokio `future` in it and return `promise`. //! //! ``` //! use futures::prelude::*; //! use napi::{CallContext, Error, JsObject, JsString, Result, Status}; //! use tokio; //! //! #[napi] //! pub async fn tokio_readfile(js_filepath: String) -> Result { //! ctx.env.execute_tokio_future( //! tokio::fs::read(js_filepath) //! .map(|v| v.map_err(|e| Error::new(Status::Unknown, format!("failed to read file, {}", e)))), //! |&mut env, data| env.create_buffer_with_data(data), //! ) //! } //! ``` //! //! ***Tokio channel in `napi-rs` buffer size is default `100`.*** //! //! ***You can adjust it via `NAPI_RS_TOKIO_CHANNEL_BUFFER_SIZE` environment variable*** //! //! ``` //! NAPI_RS_TOKIO_CHANNEL_BUFFER_SIZE=1000 node ./app.js //! ``` //! //! ### latin1 //! //! Decode latin1 string from JavaScript using [encoding_rs](https://docs.rs/encoding_rs). //! //! With this feature, you can use `JsString.as_latin1_string` function //! //! ### serde-json //! //! Enable Serialize/Deserialize data cross `JavaScript Object` and `Rust struct`. //! //! ``` //! #[derive(Serialize, Debug, Deserialize)] //! struct AnObject { //! a: u32, //! b: Vec, //! c: String, //! } //! //! #[napi] //! fn deserialize_from_js(arg0: JsUnknown) -> Result { //! let de_serialized: AnObject = ctx.env.from_js_value(arg0)?; //! ... //! } //! //! #[napi] //! fn serialize(env: Env) -> Result { //! let value = AnyObject { a: 1, b: vec![0.1, 2.22], c: "hello" }; //! env.to_js_value(&value) //! } //! ``` //! #[cfg(feature = "napi8")] mod async_cleanup_hook; #[cfg(feature = "napi8")] pub use async_cleanup_hook::AsyncCleanupHook; mod async_work; mod bindgen_runtime; mod call_context; #[cfg(feature = "napi3")] mod cleanup_env; mod env; mod error; mod js_values; mod status; mod task; #[cfg(all(feature = "tokio_rt", feature = "napi4"))] mod tokio_runtime; mod value_type; #[cfg(feature = "napi3")] pub use cleanup_env::CleanupEnvHook; #[cfg(feature = "napi4")] pub mod threadsafe_function; mod version; pub use napi_sys as sys; pub use async_work::AsyncWorkPromise; pub use call_context::CallContext; pub use bindgen_runtime::iterator; pub use env::*; pub use error::*; pub use js_values::*; pub use status::Status; pub use task::Task; pub use value_type::*; pub use version::NodeVersion; #[cfg(feature = "serde-json")] #[macro_use] extern crate serde; pub type ContextlessResult = Result>; #[doc(hidden)] #[macro_export(local_inner_macros)] macro_rules! type_of { ($env:expr, $value:expr) => {{ let mut value_type = 0; #[allow(unused_unsafe)] check_status!(unsafe { $crate::sys::napi_typeof($env, $value, &mut value_type) }) .and_then(|_| Ok($crate::ValueType::from(value_type))) }}; } #[doc(hidden)] #[macro_export] macro_rules! assert_type_of { ($env: expr, $value:expr, $value_ty: expr) => { $crate::type_of!($env, $value).and_then(|received_type| { if received_type == $value_ty { Ok(()) } else { Err($crate::Error::new( $crate::Status::InvalidArg, format!( "Expect value to be {}, but received {}", $value_ty, received_type ), )) } }) }; } pub use crate::bindgen_runtime::ctor as module_init; pub mod bindgen_prelude { #[cfg(all(feature = "compat-mode", not(feature = "noop")))] pub use crate::bindgen_runtime::register_module_exports; #[cfg(feature = "tokio_rt")] pub use crate::tokio_runtime::*; pub use crate::{ assert_type_of, bindgen_runtime::*, check_pending_exception, check_status, check_status_or_throw, error, error::*, sys, type_of, JsError, Property, PropertyAttributes, Result, Status, Task, ValueType, }; // This function's signature must be kept in sync with the one in tokio_runtime.rs, otherwise napi // will fail to compile without the `tokio_rt` feature. /// If the feature `tokio_rt` has been enabled this will enter the runtime context and /// then call the provided closure. Otherwise it will just call the provided closure. #[cfg(not(all(feature = "tokio_rt", feature = "napi4")))] pub fn within_runtime_if_available T, T>(f: F) -> T { f() } } #[doc(hidden)] pub mod __private { pub use crate::bindgen_runtime::{ get_class_constructor, iterator::create_iterator, register_class, ___CALL_FROM_FACTORY, }; use crate::sys; pub unsafe fn log_js_value>( // `info`, `log`, `warning` or `error` method: &str, env: sys::napi_env, values: V, ) { use std::ffi::CString; use std::ptr; let mut g = ptr::null_mut(); unsafe { sys::napi_get_global(env, &mut g) }; let mut console = ptr::null_mut(); let console_c_string = CString::new("console").unwrap(); let method_c_string = CString::new(method).unwrap(); unsafe { sys::napi_get_named_property(env, g, console_c_string.as_ptr(), &mut console) }; let mut method_js_fn = ptr::null_mut(); unsafe { sys::napi_get_named_property(env, console, method_c_string.as_ptr(), &mut method_js_fn) }; unsafe { sys::napi_call_function( env, console, method_js_fn, values.as_ref().len(), values.as_ref().as_ptr(), ptr::null_mut(), ) }; } } #[cfg(feature = "tokio_rt")] pub extern crate tokio; #[cfg(feature = "error_anyhow")] pub extern crate anyhow;