1. Adds cli/standalone folder
2. Writes the bytes directly to the output file. When adding npm
packages this might get quite large, so let's not keep the final output
in memory just in case.
Towards #18455
This commit implements the keypair generation for asymmetric keys for
the `generateKeyPair` API.
See how key material is managed in this implementation:
https://www.notion.so/denolandinc/node-crypto-design-99fc33f568d24e47a5e4b36002c5325d?pvs=4
Private and public key encoding depend on `KeyObject#export` which is
not implemented. I've also skipped ED448 and X448 since we need a crate
for that in WebCrypto too.
This function was inherently racy which showed on slow machines -
the connect future started before the spawned task was first polled.
This change makes it so we're already accepting a connection when
the connect future is first polled.
Alternative to https://github.com/denoland/deno/pull/18726.
This was suggested by @piscisaureus. It's a bit ugly, but it does the
work and makes cloning `JsRealm` very cheap, while not requiring
invasive changes.
Also managed to remove some vector and `v8::Global` clones which yields
about 5% improvement in the "async_ops_deferred.js" benchmark.
This PR:
```
time 1689 ms rate 592066
time 1722 ms rate 580720
time 1629 ms rate 613873
time 1578 ms rate 633713
time 1585 ms rate 630914
time 1574 ms rate 635324
```
`main` branch:
```
time 1687 ms rate 592768
time 1676 ms rate 596658
time 1651 ms rate 605693
time 1652 ms rate 605326
time 1638 ms rate 610500
```
- preserve referential invariants (e.g. path.posix === posix)
- remove glob and separator exports
- save removal of fromFileUrl and toFileUrl for a different PR as that
refactor is more involved
- addresses #18177
This commit removes the dependencies on `deno_core` for the Fs trait.
This allows to move the trait into a different crate that does not
depend on core in the limit.
This adds a new `bounds` field to `deno_core::extension!` that expands
to `where` clauses on the generated code. This allows to add bounds to
the extension parameters, such as `Fs::File: Resource`.
```
./target/release/deno run cli/bench/async_ops_deferred.js
time 794 ms rate 1259445
time 786 ms rate 1272264
time 770 ms rate 1298701
time 784 ms rate 1275510
time 775 ms rate 1290322
time 786 ms rate 1272264
time 773 ms rate 1293661
time 771 ms rate 1297016
time 774 ms rate 1291989
time 767 ms rate 1303780
time 764 ms rate 1308900
time 768 ms rate 1302083
time 763 ms rate 1310615
time 761 ms rate 1314060
time 761 ms rate 1314060
time 762 ms rate 1312335
time 763 ms rate 1310615
time 759 ms rate 1317523
time 760 ms rate 1315789
time 761 ms rate 1314060
time 769 ms rate 1300390
time 763 ms rate 1310615
time 760 ms rate 1315789
time 763 ms rate 1310615
time 761 ms rate 1314060
time 759 ms rate 1317523
time 765 ms rate 1307189
time 760 ms rate 1315789
time 764 ms rate 1308900
time 763 ms rate 1310615
time 760 ms rate 1315789
time 757 ms rate 1321003
time 763 ms rate 1310615
time 759 ms rate 1317523
time 771 ms rate 1297016
time 759 ms rate 1317523
time 759 ms rate 1317523
time 763 ms rate 1310615
time 754 ms rate 1326259
time 755 ms rate 1324503
time 762 ms rate 1312335
time 752 ms rate 1329787
time 755 ms rate 1324503
time 754 ms rate 1326259
time 759 ms rate 1317523
time 754 ms rate 1326259
time 749 ms rate 1335113
time 753 ms rate 1328021
time 756 ms rate 1322751
time 753 ms rate 1328021
```
```
samply record -r 20000 target/release/deno run cli/bench/async_ops_deferred.js
```
https://share.firefox.dev/43Efvm6
1. Breaks up functionality within `ProcState` into several other structs
to break out the responsibilities (`ProcState` is only a data struct
now).
2. Moves towards being able to inject dependencies more easily and have
functionality only require what it needs.
3. Exposes `Arc<T>` around the "service structs" instead of it being
embedded within them. The idea behind embedding them was to reduce the
verbosity of needing to pass around `Arc<...>`, but I don't think it was
exactly working and as we move more of these structs to be more
injectable I don't think the extra verbosity will be a big deal.
Fixes https://github.com/denoland/deno/issues/18700
Timeline of the events that lead to the bug.
1. WebSocket handshake complete
2. Server on `read_frame` holding an AsyncRefCell borrow of the
WebSocket stream.
3. Client sends a TXT frame after a some time
4. Server recieves the frame and goes back to `read_frame`.
5. After some time, Server starts a `write_frame` but `read_frame` is
still holding a borrow!
^--- Locked. read_frame needs to complete so we can resume the write.
This commit changes all writes to directly borrow the
`fastwebsocket::WebSocket` resource under the assumption that it won't
affect ongoing reads.
Currently we are "waking up" the runtime if at the end of the event loop
tick there are ops that haven't been polled. Waking up incurs a syscall
and it appears we can do another tick of the event loop, without
going through the "wake up" machinery.
This commit refactors "deno_core" to do fewer boundary crossings
from Rust to V8. In other words we are now calling V8 from Rust fewer
times.
This is done by merging 3 distinct callbacks into a single one. Instead
of having "op resolve" callback, "next tick" callback and "macrotask
queue" callback, we now have only "Deno.core.eventLoopTick" callback,
which is responsible for doing the same actions previous 3 callbacks.
On each of the event loop we were doing at least 2 boundary crosses
(timers macrotask queue callback and unhandled promise rejection
callback) and up to 4 crosses if there were op response and next tick
callbacks coming from Node.js compatibility layer. Now this is all done
in a single callback.
Closes https://github.com/denoland/deno/issues/18620
Removes the functions in the `emit` module and replaces them with an
`Emitter` struct that can have "ctor dependencies" injected rather than
using functions to pass along the dependencies.
This is part of a long term refactor to move more functionality out of
proc state.
Stores the test/bench functions in rust op state during registration.
The functions are wrapped in JS first so that they return a directly
convertible `TestResult`/`BenchResult`. Test steps are still mostly
handled in JS since they are pretty much invoked by the user. Allows
removing a bunch of infrastructure for communicating between JS and
rust. Allows using rust utilities for things like shuffling tests
(`Vec::shuffle`). We can progressively move op and resource sanitization
to rust as well.
Fixes #17122.
Fixes #17312.