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194 lines
6 KiB
Rust
194 lines
6 KiB
Rust
// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.
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use crate::error::AnyError;
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use crate::ops::OpCall;
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use crate::serialize_op_result;
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use crate::Op;
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use crate::OpFn;
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use crate::OpState;
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use serde::de::DeserializeOwned;
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use serde::Serialize;
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use std::cell::RefCell;
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use std::future::Future;
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use std::rc::Rc;
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/// A helper function that returns a sync NOP OpFn
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///
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/// It's mainly intended for embedders who want to disable ops, see ./examples/disable_ops.rs
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pub fn void_op_sync() -> Box<OpFn> {
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op_sync(|_, _: (), _: ()| Ok(()))
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}
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/// A helper function that returns an async NOP OpFn
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///
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/// It's mainly intended for embedders who want to disable ops, see ./examples/disable_ops.rs
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pub fn void_op_async() -> Box<OpFn> {
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op_async(|_, _: (), _: ()| futures::future::ok(()))
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}
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/// Creates an op that passes data synchronously using JSON.
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///
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/// The provided function `op_fn` has the following parameters:
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/// * `&mut OpState`: the op state, can be used to read/write resources in the runtime from an op.
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/// * `V`: the deserializable value that is passed to the Rust function.
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/// * `&mut [ZeroCopyBuf]`: raw bytes passed along, usually not needed if the JSON value is used.
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///
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/// `op_fn` returns a serializable value, which is directly returned to JavaScript.
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///
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/// When registering an op like this...
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/// ```ignore
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/// let mut runtime = JsRuntime::new(...);
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/// runtime.register_op("hello", deno_core::op_sync(Self::hello_op));
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/// runtime.sync_ops_cache();
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/// ```
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///
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/// ...it can be invoked from JS using the provided name, for example:
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/// ```js
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/// let result = Deno.core.opSync("hello", args);
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/// ```
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///
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/// `runtime.sync_ops_cache()` must be called after registering new ops
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/// A more complete example is available in the examples directory.
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pub fn op_sync<F, A, B, R>(op_fn: F) -> Box<OpFn>
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where
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F: Fn(&mut OpState, A, B) -> Result<R, AnyError> + 'static,
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A: DeserializeOwned,
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B: DeserializeOwned,
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R: Serialize + 'static,
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{
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Box::new(move |state, payload| -> Op {
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let result = payload
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.deserialize()
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.and_then(|(a, b)| op_fn(&mut state.borrow_mut(), a, b));
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Op::Sync(serialize_op_result(result, state))
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})
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}
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/// Creates an op that passes data asynchronously using JSON.
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///
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/// When this op is dispatched, the runtime doesn't exit while processing it.
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/// Use op_async_unref instead if you want to make the runtime exit while processing it.
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///
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/// The provided function `op_fn` has the following parameters:
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/// * `Rc<RefCell<OpState>`: the op state, can be used to read/write resources in the runtime from an op.
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/// * `V`: the deserializable value that is passed to the Rust function.
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/// * `BufVec`: raw bytes passed along, usually not needed if the JSON value is used.
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///
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/// `op_fn` returns a future, whose output is a serializable value. This value will be asynchronously
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/// returned to JavaScript.
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///
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/// When registering an op like this...
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/// ```ignore
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/// let mut runtime = JsRuntime::new(...);
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/// runtime.register_op("hello", deno_core::op_async(Self::hello_op));
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/// runtime.sync_ops_cache();
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/// ```
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///
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/// ...it can be invoked from JS using the provided name, for example:
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/// ```js
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/// let future = Deno.core.opAsync("hello", args);
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/// ```
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///
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/// `runtime.sync_ops_cache()` must be called after registering new ops
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/// A more complete example is available in the examples directory.
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pub fn op_async<F, A, B, R, RV>(op_fn: F) -> Box<OpFn>
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where
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F: Fn(Rc<RefCell<OpState>>, A, B) -> R + 'static,
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A: DeserializeOwned,
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B: DeserializeOwned,
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R: Future<Output = Result<RV, AnyError>> + 'static,
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RV: Serialize + 'static,
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{
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Box::new(move |state, payload| -> Op {
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let op_id = payload.op_id;
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let pid = payload.promise_id;
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// Deserialize args, sync error on failure
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let args = match payload.deserialize() {
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Ok(args) => args,
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Err(err) => {
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return Op::Sync(serialize_op_result(Err::<(), AnyError>(err), state))
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}
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};
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let (a, b) = args;
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use crate::futures::FutureExt;
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let fut = op_fn(state.clone(), a, b)
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.map(move |result| (pid, op_id, serialize_op_result(result, state)));
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Op::Async(OpCall::eager(fut))
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})
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}
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/// Creates an op that passes data asynchronously using JSON.
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///
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/// When this op is dispatched, the runtime still can exit while processing it.
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///
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/// The other usages are the same as `op_async`.
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pub fn op_async_unref<F, A, B, R, RV>(op_fn: F) -> Box<OpFn>
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where
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F: Fn(Rc<RefCell<OpState>>, A, B) -> R + 'static,
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A: DeserializeOwned,
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B: DeserializeOwned,
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R: Future<Output = Result<RV, AnyError>> + 'static,
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RV: Serialize + 'static,
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{
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Box::new(move |state, payload| -> Op {
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let op_id = payload.op_id;
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let pid = payload.promise_id;
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// Deserialize args, sync error on failure
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let args = match payload.deserialize() {
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Ok(args) => args,
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Err(err) => {
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return Op::Sync(serialize_op_result(Err::<(), AnyError>(err), state))
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}
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};
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let (a, b) = args;
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use crate::futures::FutureExt;
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let fut = op_fn(state.clone(), a, b)
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.map(move |result| (pid, op_id, serialize_op_result(result, state)));
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Op::AsyncUnref(OpCall::eager(fut))
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})
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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#[tokio::test]
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async fn op_async_stack_trace() {
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let mut runtime = crate::JsRuntime::new(Default::default());
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async fn op_throw(
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_state: Rc<RefCell<OpState>>,
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msg: Option<String>,
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_: (),
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) -> Result<(), AnyError> {
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assert_eq!(msg.unwrap(), "hello");
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Err(crate::error::generic_error("foo"))
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}
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runtime.register_op("op_throw", op_async(op_throw));
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runtime.sync_ops_cache();
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runtime
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.execute_script(
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"<init>",
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r#"
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async function f1() {
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await Deno.core.opAsync('op_throw', 'hello');
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}
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async function f2() {
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await f1();
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}
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f2();
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"#,
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)
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.unwrap();
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let e = runtime.run_event_loop(false).await.unwrap_err().to_string();
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println!("{}", e);
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assert!(e.contains("Error: foo"));
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assert!(e.contains("at async f1 (<init>:"));
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assert!(e.contains("at async f2 (<init>:"));
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}
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}
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