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denoland-deno/core/ops_builtin.rs

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// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
use crate::error::format_file_name;
use crate::error::type_error;
feat(core): improve resource read & write traits (#16115) This commit introduces two new buffer wrapper types to `deno_core`. The main benefit of these new wrappers is that they can wrap a number of different underlying buffer types. This allows for a more flexible read and write API on resources that will require less copying of data between different buffer representations. - `BufView` is a read-only view onto a buffer. It can be backed by `ZeroCopyBuf`, `Vec<u8>`, and `bytes::Bytes`. - `BufViewMut` is a read-write view onto a buffer. It can be cheaply converted into a `BufView`. It can be backed by `ZeroCopyBuf` or `Vec<u8>`. Both new buffer views have a cursor. This means that the start point of the view can be constrained to write / read from just a slice of the view. Only the start point of the slice can be adjusted. The end point is fixed. To adjust the end point, the underlying buffer needs to be truncated. Readable resources have been changed to better cater to resources that do not support BYOB reads. The basic `read` method now returns a `BufView` instead of taking a `ZeroCopyBuf` to fill. This allows the operation to return buffers that the resource has already allocated, instead of forcing the caller to allocate the buffer. BYOB reads are still very useful for resources that support them, so a new `read_byob` method has been added that takes a `BufViewMut` to fill. `op_read` attempts to use `read_byob` if the resource supports it, which falls back to `read` and performs an additional copy if it does not. For Rust->JS reads this change should have no impact, but for Rust->Rust reads, this allows the caller to avoid an additional copy in many scenarios. This combined with the support for `BufView` to be backed by `bytes::Bytes` allows us to avoid one data copy when piping from a `fetch` response into an `ext/http` response. Writable resources have been changed to take a `BufView` instead of a `ZeroCopyBuf` as an argument. This allows for less copying of data in certain scenarios, as described above. Additionally a new `Resource::write_all` method has been added that takes a `BufView` and continually attempts to write the resource until the entire buffer has been written. Certain resources like files can override this method to provide a more efficient `write_all` implementation.
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use crate::io::BufMutView;
use crate::io::BufView;
use crate::ops_builtin_v8;
use crate::ops_metrics::OpMetrics;
use crate::resources::ResourceId;
use crate::OpState;
use crate::Resource;
use crate::ZeroCopyBuf;
use anyhow::Error;
use deno_ops::op;
use std::cell::RefCell;
use std::io::stderr;
use std::io::stdout;
use std::io::Write;
use std::rc::Rc;
crate::extension!(
core,
ops = [
op_close,
op_try_close,
op_print,
op_resources,
op_wasm_streaming_feed,
op_wasm_streaming_set_url,
op_void_sync,
op_void_async,
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op_void_async_deferred,
op_add,
// TODO(@AaronO): track IO metrics for builtin streams
op_read,
op_read_all,
op_write,
op_read_sync,
op_write_sync,
op_write_all,
op_shutdown,
op_metrics,
op_format_file_name,
op_is_proxy,
op_str_byte_length,
ops_builtin_v8::op_ref_op,
ops_builtin_v8::op_unref_op,
ops_builtin_v8::op_set_promise_reject_callback,
ops_builtin_v8::op_run_microtasks,
ops_builtin_v8::op_has_tick_scheduled,
ops_builtin_v8::op_set_has_tick_scheduled,
ops_builtin_v8::op_eval_context,
ops_builtin_v8::op_queue_microtask,
ops_builtin_v8::op_create_host_object,
ops_builtin_v8::op_encode,
ops_builtin_v8::op_decode,
ops_builtin_v8::op_serialize,
ops_builtin_v8::op_deserialize,
ops_builtin_v8::op_set_promise_hooks,
ops_builtin_v8::op_get_promise_details,
ops_builtin_v8::op_get_proxy_details,
ops_builtin_v8::op_memory_usage,
ops_builtin_v8::op_set_wasm_streaming_callback,
ops_builtin_v8::op_abort_wasm_streaming,
ops_builtin_v8::op_destructure_error,
ops_builtin_v8::op_dispatch_exception,
ops_builtin_v8::op_op_names,
ops_builtin_v8::op_apply_source_map,
ops_builtin_v8::op_set_format_exception_callback,
ops_builtin_v8::op_event_loop_has_more_work,
ops_builtin_v8::op_store_pending_promise_rejection,
ops_builtin_v8::op_remove_pending_promise_rejection,
ops_builtin_v8::op_has_pending_promise_rejection,
ops_builtin_v8::op_arraybuffer_was_detached,
],
js = ["00_primordials.js", "01_core.js", "02_error.js"],
customizer = |ext: &mut crate::ExtensionBuilder| {
ext.deno_core();
}
);
/// Return map of resources with id as key
/// and string representation as value.
#[op]
pub fn op_resources(state: &mut OpState) -> Vec<(ResourceId, String)> {
state
.resource_table
.names()
.map(|(rid, name)| (rid, name.to_string()))
.collect()
}
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#[op(fast)]
fn op_add(a: i32, b: i32) -> i32 {
a + b
}
#[op(fast)]
pub fn op_void_sync() {}
#[op]
pub async fn op_void_async() {}
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#[op(deferred)]
pub async fn op_void_async_deferred() {}
/// Remove a resource from the resource table.
#[op]
pub fn op_close(
state: &mut OpState,
rid: Option<ResourceId>,
) -> Result<(), Error> {
// TODO(@AaronO): drop Option after improving type-strictness balance in
// serde_v8
let rid = rid.ok_or_else(|| type_error("missing or invalid `rid`"))?;
state.resource_table.close(rid)?;
Ok(())
}
/// Try to remove a resource from the resource table. If there is no resource
/// with the specified `rid`, this is a no-op.
#[op]
pub fn op_try_close(
state: &mut OpState,
rid: Option<ResourceId>,
) -> Result<(), Error> {
// TODO(@AaronO): drop Option after improving type-strictness balance in
// serde_v8.
let rid = rid.ok_or_else(|| type_error("missing or invalid `rid`"))?;
let _ = state.resource_table.close(rid);
Ok(())
}
#[op]
pub fn op_metrics(state: &mut OpState) -> (OpMetrics, Vec<OpMetrics>) {
let aggregate = state.tracker.aggregate();
let per_op = state.tracker.per_op();
(aggregate, per_op)
}
/// Builtin utility to print to stdout/stderr
#[op]
pub fn op_print(msg: &str, is_err: bool) -> Result<(), Error> {
if is_err {
stderr().write_all(msg.as_bytes())?;
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stderr().flush().unwrap();
} else {
stdout().write_all(msg.as_bytes())?;
stdout().flush().unwrap();
}
Ok(())
}
pub struct WasmStreamingResource(pub(crate) RefCell<v8::WasmStreaming>);
impl Resource for WasmStreamingResource {
fn close(self: Rc<Self>) {
// At this point there are no clones of Rc<WasmStreamingResource> on the
// resource table, and no one should own a reference outside of the stack.
// Therefore, we can be sure `self` is the only reference.
if let Ok(wsr) = Rc::try_unwrap(self) {
wsr.0.into_inner().finish();
} else {
panic!("Couldn't consume WasmStreamingResource.");
}
}
}
/// Feed bytes to WasmStreamingResource.
#[op]
pub fn op_wasm_streaming_feed(
state: &mut OpState,
rid: ResourceId,
bytes: &[u8],
) -> Result<(), Error> {
let wasm_streaming =
state.resource_table.get::<WasmStreamingResource>(rid)?;
wasm_streaming.0.borrow_mut().on_bytes_received(bytes);
Ok(())
}
#[op]
pub fn op_wasm_streaming_set_url(
state: &mut OpState,
rid: ResourceId,
url: &str,
) -> Result<(), Error> {
let wasm_streaming =
state.resource_table.get::<WasmStreamingResource>(rid)?;
wasm_streaming.0.borrow_mut().set_url(url);
Ok(())
}
#[op]
async fn op_read(
state: Rc<RefCell<OpState>>,
rid: ResourceId,
buf: ZeroCopyBuf,
) -> Result<u32, Error> {
let resource = state.borrow().resource_table.get_any(rid)?;
feat(core): improve resource read & write traits (#16115) This commit introduces two new buffer wrapper types to `deno_core`. The main benefit of these new wrappers is that they can wrap a number of different underlying buffer types. This allows for a more flexible read and write API on resources that will require less copying of data between different buffer representations. - `BufView` is a read-only view onto a buffer. It can be backed by `ZeroCopyBuf`, `Vec<u8>`, and `bytes::Bytes`. - `BufViewMut` is a read-write view onto a buffer. It can be cheaply converted into a `BufView`. It can be backed by `ZeroCopyBuf` or `Vec<u8>`. Both new buffer views have a cursor. This means that the start point of the view can be constrained to write / read from just a slice of the view. Only the start point of the slice can be adjusted. The end point is fixed. To adjust the end point, the underlying buffer needs to be truncated. Readable resources have been changed to better cater to resources that do not support BYOB reads. The basic `read` method now returns a `BufView` instead of taking a `ZeroCopyBuf` to fill. This allows the operation to return buffers that the resource has already allocated, instead of forcing the caller to allocate the buffer. BYOB reads are still very useful for resources that support them, so a new `read_byob` method has been added that takes a `BufViewMut` to fill. `op_read` attempts to use `read_byob` if the resource supports it, which falls back to `read` and performs an additional copy if it does not. For Rust->JS reads this change should have no impact, but for Rust->Rust reads, this allows the caller to avoid an additional copy in many scenarios. This combined with the support for `BufView` to be backed by `bytes::Bytes` allows us to avoid one data copy when piping from a `fetch` response into an `ext/http` response. Writable resources have been changed to take a `BufView` instead of a `ZeroCopyBuf` as an argument. This allows for less copying of data in certain scenarios, as described above. Additionally a new `Resource::write_all` method has been added that takes a `BufView` and continually attempts to write the resource until the entire buffer has been written. Certain resources like files can override this method to provide a more efficient `write_all` implementation.
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let view = BufMutView::from(buf);
resource.read_byob(view).await.map(|(n, _)| n as u32)
}
#[op]
async fn op_read_all(
state: Rc<RefCell<OpState>>,
rid: ResourceId,
) -> Result<ZeroCopyBuf, Error> {
let resource = state.borrow().resource_table.get_any(rid)?;
feat(core): improve resource read & write traits (#16115) This commit introduces two new buffer wrapper types to `deno_core`. The main benefit of these new wrappers is that they can wrap a number of different underlying buffer types. This allows for a more flexible read and write API on resources that will require less copying of data between different buffer representations. - `BufView` is a read-only view onto a buffer. It can be backed by `ZeroCopyBuf`, `Vec<u8>`, and `bytes::Bytes`. - `BufViewMut` is a read-write view onto a buffer. It can be cheaply converted into a `BufView`. It can be backed by `ZeroCopyBuf` or `Vec<u8>`. Both new buffer views have a cursor. This means that the start point of the view can be constrained to write / read from just a slice of the view. Only the start point of the slice can be adjusted. The end point is fixed. To adjust the end point, the underlying buffer needs to be truncated. Readable resources have been changed to better cater to resources that do not support BYOB reads. The basic `read` method now returns a `BufView` instead of taking a `ZeroCopyBuf` to fill. This allows the operation to return buffers that the resource has already allocated, instead of forcing the caller to allocate the buffer. BYOB reads are still very useful for resources that support them, so a new `read_byob` method has been added that takes a `BufViewMut` to fill. `op_read` attempts to use `read_byob` if the resource supports it, which falls back to `read` and performs an additional copy if it does not. For Rust->JS reads this change should have no impact, but for Rust->Rust reads, this allows the caller to avoid an additional copy in many scenarios. This combined with the support for `BufView` to be backed by `bytes::Bytes` allows us to avoid one data copy when piping from a `fetch` response into an `ext/http` response. Writable resources have been changed to take a `BufView` instead of a `ZeroCopyBuf` as an argument. This allows for less copying of data in certain scenarios, as described above. Additionally a new `Resource::write_all` method has been added that takes a `BufView` and continually attempts to write the resource until the entire buffer has been written. Certain resources like files can override this method to provide a more efficient `write_all` implementation.
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// The number of bytes we attempt to grow the buffer by each time it fills
// up and we have more data to read. We start at 64 KB. The grow_len is
// doubled if the nread returned from a single read is equal or greater than
// the grow_len. This allows us to reduce allocations for resources that can
// read large chunks of data at a time.
let mut grow_len: usize = 64 * 1024;
let (min, maybe_max) = resource.size_hint();
// Try to determine an optimial starting buffer size for this resource based
// on the size hint.
let initial_size = match (min, maybe_max) {
(min, Some(max)) if min == max => min as usize,
(_min, Some(max)) if (max as usize) < grow_len => max as usize,
(min, _) if (min as usize) < grow_len => grow_len,
(min, _) => min as usize,
};
let mut buf = BufMutView::new(initial_size);
loop {
feat(core): improve resource read & write traits (#16115) This commit introduces two new buffer wrapper types to `deno_core`. The main benefit of these new wrappers is that they can wrap a number of different underlying buffer types. This allows for a more flexible read and write API on resources that will require less copying of data between different buffer representations. - `BufView` is a read-only view onto a buffer. It can be backed by `ZeroCopyBuf`, `Vec<u8>`, and `bytes::Bytes`. - `BufViewMut` is a read-write view onto a buffer. It can be cheaply converted into a `BufView`. It can be backed by `ZeroCopyBuf` or `Vec<u8>`. Both new buffer views have a cursor. This means that the start point of the view can be constrained to write / read from just a slice of the view. Only the start point of the slice can be adjusted. The end point is fixed. To adjust the end point, the underlying buffer needs to be truncated. Readable resources have been changed to better cater to resources that do not support BYOB reads. The basic `read` method now returns a `BufView` instead of taking a `ZeroCopyBuf` to fill. This allows the operation to return buffers that the resource has already allocated, instead of forcing the caller to allocate the buffer. BYOB reads are still very useful for resources that support them, so a new `read_byob` method has been added that takes a `BufViewMut` to fill. `op_read` attempts to use `read_byob` if the resource supports it, which falls back to `read` and performs an additional copy if it does not. For Rust->JS reads this change should have no impact, but for Rust->Rust reads, this allows the caller to avoid an additional copy in many scenarios. This combined with the support for `BufView` to be backed by `bytes::Bytes` allows us to avoid one data copy when piping from a `fetch` response into an `ext/http` response. Writable resources have been changed to take a `BufView` instead of a `ZeroCopyBuf` as an argument. This allows for less copying of data in certain scenarios, as described above. Additionally a new `Resource::write_all` method has been added that takes a `BufView` and continually attempts to write the resource until the entire buffer has been written. Certain resources like files can override this method to provide a more efficient `write_all` implementation.
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// if the buffer does not have much remaining space, we may have to grow it.
if buf.len() < grow_len {
let vec = buf.get_mut_vec();
match maybe_max {
Some(max) if vec.len() >= max as usize => {
// no need to resize the vec, because the vec is already large enough
// to accommodate the maximum size of the read data.
feat(core): improve resource read & write traits (#16115) This commit introduces two new buffer wrapper types to `deno_core`. The main benefit of these new wrappers is that they can wrap a number of different underlying buffer types. This allows for a more flexible read and write API on resources that will require less copying of data between different buffer representations. - `BufView` is a read-only view onto a buffer. It can be backed by `ZeroCopyBuf`, `Vec<u8>`, and `bytes::Bytes`. - `BufViewMut` is a read-write view onto a buffer. It can be cheaply converted into a `BufView`. It can be backed by `ZeroCopyBuf` or `Vec<u8>`. Both new buffer views have a cursor. This means that the start point of the view can be constrained to write / read from just a slice of the view. Only the start point of the slice can be adjusted. The end point is fixed. To adjust the end point, the underlying buffer needs to be truncated. Readable resources have been changed to better cater to resources that do not support BYOB reads. The basic `read` method now returns a `BufView` instead of taking a `ZeroCopyBuf` to fill. This allows the operation to return buffers that the resource has already allocated, instead of forcing the caller to allocate the buffer. BYOB reads are still very useful for resources that support them, so a new `read_byob` method has been added that takes a `BufViewMut` to fill. `op_read` attempts to use `read_byob` if the resource supports it, which falls back to `read` and performs an additional copy if it does not. For Rust->JS reads this change should have no impact, but for Rust->Rust reads, this allows the caller to avoid an additional copy in many scenarios. This combined with the support for `BufView` to be backed by `bytes::Bytes` allows us to avoid one data copy when piping from a `fetch` response into an `ext/http` response. Writable resources have been changed to take a `BufView` instead of a `ZeroCopyBuf` as an argument. This allows for less copying of data in certain scenarios, as described above. Additionally a new `Resource::write_all` method has been added that takes a `BufView` and continually attempts to write the resource until the entire buffer has been written. Certain resources like files can override this method to provide a more efficient `write_all` implementation.
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}
Some(max) if (max as usize) < vec.len() + grow_len => {
// grow the vec to the maximum size of the read data
vec.resize(max as usize, 0);
}
_ => {
// grow the vec by grow_len
vec.resize(vec.len() + grow_len, 0);
}
}
}
let (n, new_buf) = resource.clone().read_byob(buf).await?;
buf = new_buf;
buf.advance_cursor(n);
if n == 0 {
break;
}
if n >= grow_len {
// we managed to read more or equal data than fits in a single grow_len in
// a single go, so let's attempt to read even more next time. this reduces
// allocations for resources that can read large chunks of data at a time.
grow_len *= 2;
}
}
feat(core): improve resource read & write traits (#16115) This commit introduces two new buffer wrapper types to `deno_core`. The main benefit of these new wrappers is that they can wrap a number of different underlying buffer types. This allows for a more flexible read and write API on resources that will require less copying of data between different buffer representations. - `BufView` is a read-only view onto a buffer. It can be backed by `ZeroCopyBuf`, `Vec<u8>`, and `bytes::Bytes`. - `BufViewMut` is a read-write view onto a buffer. It can be cheaply converted into a `BufView`. It can be backed by `ZeroCopyBuf` or `Vec<u8>`. Both new buffer views have a cursor. This means that the start point of the view can be constrained to write / read from just a slice of the view. Only the start point of the slice can be adjusted. The end point is fixed. To adjust the end point, the underlying buffer needs to be truncated. Readable resources have been changed to better cater to resources that do not support BYOB reads. The basic `read` method now returns a `BufView` instead of taking a `ZeroCopyBuf` to fill. This allows the operation to return buffers that the resource has already allocated, instead of forcing the caller to allocate the buffer. BYOB reads are still very useful for resources that support them, so a new `read_byob` method has been added that takes a `BufViewMut` to fill. `op_read` attempts to use `read_byob` if the resource supports it, which falls back to `read` and performs an additional copy if it does not. For Rust->JS reads this change should have no impact, but for Rust->Rust reads, this allows the caller to avoid an additional copy in many scenarios. This combined with the support for `BufView` to be backed by `bytes::Bytes` allows us to avoid one data copy when piping from a `fetch` response into an `ext/http` response. Writable resources have been changed to take a `BufView` instead of a `ZeroCopyBuf` as an argument. This allows for less copying of data in certain scenarios, as described above. Additionally a new `Resource::write_all` method has been added that takes a `BufView` and continually attempts to write the resource until the entire buffer has been written. Certain resources like files can override this method to provide a more efficient `write_all` implementation.
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let nread = buf.reset_cursor();
let mut vec = buf.unwrap_vec();
// If the buffer is larger than the amount of data read, shrink it to the
// amount of data read.
if nread < vec.len() {
vec.truncate(nread);
}
Ok(ZeroCopyBuf::from(vec))
}
#[op]
async fn op_write(
state: Rc<RefCell<OpState>>,
rid: ResourceId,
buf: ZeroCopyBuf,
) -> Result<u32, Error> {
let resource = state.borrow().resource_table.get_any(rid)?;
feat(core): improve resource read & write traits (#16115) This commit introduces two new buffer wrapper types to `deno_core`. The main benefit of these new wrappers is that they can wrap a number of different underlying buffer types. This allows for a more flexible read and write API on resources that will require less copying of data between different buffer representations. - `BufView` is a read-only view onto a buffer. It can be backed by `ZeroCopyBuf`, `Vec<u8>`, and `bytes::Bytes`. - `BufViewMut` is a read-write view onto a buffer. It can be cheaply converted into a `BufView`. It can be backed by `ZeroCopyBuf` or `Vec<u8>`. Both new buffer views have a cursor. This means that the start point of the view can be constrained to write / read from just a slice of the view. Only the start point of the slice can be adjusted. The end point is fixed. To adjust the end point, the underlying buffer needs to be truncated. Readable resources have been changed to better cater to resources that do not support BYOB reads. The basic `read` method now returns a `BufView` instead of taking a `ZeroCopyBuf` to fill. This allows the operation to return buffers that the resource has already allocated, instead of forcing the caller to allocate the buffer. BYOB reads are still very useful for resources that support them, so a new `read_byob` method has been added that takes a `BufViewMut` to fill. `op_read` attempts to use `read_byob` if the resource supports it, which falls back to `read` and performs an additional copy if it does not. For Rust->JS reads this change should have no impact, but for Rust->Rust reads, this allows the caller to avoid an additional copy in many scenarios. This combined with the support for `BufView` to be backed by `bytes::Bytes` allows us to avoid one data copy when piping from a `fetch` response into an `ext/http` response. Writable resources have been changed to take a `BufView` instead of a `ZeroCopyBuf` as an argument. This allows for less copying of data in certain scenarios, as described above. Additionally a new `Resource::write_all` method has been added that takes a `BufView` and continually attempts to write the resource until the entire buffer has been written. Certain resources like files can override this method to provide a more efficient `write_all` implementation.
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let view = BufView::from(buf);
let resp = resource.write(view).await?;
Ok(resp.nwritten() as u32)
}
#[op(fast)]
fn op_read_sync(
state: &mut OpState,
rid: ResourceId,
data: &mut [u8],
) -> Result<u32, Error> {
let resource = state.resource_table.get_any(rid)?;
resource.read_byob_sync(data).map(|n| n as u32)
}
#[op]
fn op_write_sync(
state: &mut OpState,
rid: ResourceId,
data: &[u8],
) -> Result<u32, Error> {
let resource = state.resource_table.get_any(rid)?;
let nwritten = resource.write_sync(data)?;
Ok(nwritten as u32)
}
#[op]
async fn op_write_all(
state: Rc<RefCell<OpState>>,
rid: ResourceId,
buf: ZeroCopyBuf,
) -> Result<(), Error> {
let resource = state.borrow().resource_table.get_any(rid)?;
let view = BufView::from(buf);
resource.write_all(view).await?;
Ok(())
}
#[op]
async fn op_shutdown(
state: Rc<RefCell<OpState>>,
rid: ResourceId,
) -> Result<(), Error> {
let resource = state.borrow().resource_table.get_any(rid)?;
resource.shutdown().await
}
#[op]
fn op_format_file_name(file_name: String) -> String {
format_file_name(&file_name)
}
#[op(fast)]
fn op_is_proxy(value: serde_v8::Value) -> bool {
value.v8_value.is_proxy()
}
#[op(v8)]
fn op_str_byte_length(
scope: &mut v8::HandleScope,
value: serde_v8::Value,
) -> u32 {
if let Ok(string) = v8::Local::<v8::String>::try_from(value.v8_value) {
string.utf8_length(scope) as u32
} else {
0
}
}