Add an implementation of cpu_info() for OpenBSD, that returns a
correctly-sized array. Since Rust's libc bindings for OpenBSD do not
contain all symbols necessary for a full implementation and it is not
planned to add them, this solution at least avoids problems with code
that relies on cpu_info() purely for the size of the returned array to
derive the number of available CPUs.
This addresses https://github.com/denoland/deno/issues/25621
Closes #20613.
Reimplements the serialization on top of the v8 APIs instead of
deno_core. Implements `v8.Serializer`, `v8.DefaultSerializer`,
`v8.Deserializer`, and `v8.DefaultSerializer`.
implement require(esm) using `op_import_sync` from deno_core.
possible future changes:
- cts and mts
- replace Deno.core.evalContext to optimize esm syntax detection
Fixes: https://github.com/denoland/deno/issues/25487
Mark `op_require_break_on_next_statement` as reentrant and properly
release borrow on the `OpState`. This fixes `BorrowMut` assertions when
running with inspector + op metrics.
Fixes https://github.com/denoland/deno/issues/25515
This change fixes the handling of upgraded socket from `node:http` module.
In `op_node_http_fetch_response_upgrade`, we create DuplexStream paired
with `hyper::upgrade::Upgraded`. When the connection is closed from the
server, the read result from `Upgraded` becomes 0. However because we
don't close the paired DuplexStream at that point, the Socket object in
JS side keeps alive even after the server closed. That caused the issue
#20179
This change fixes it by closing the paired DuplexStream when the
`Upgraded` stream returns 0 read result.
closes #20179
Linux/macos only currently.
Part of https://github.com/denoland/deno/issues/23524 (fixes it on
platforms other than windows).
Part of #16899 (fixes it on platforms other than windows).
After this PR, playwright is functional on mac/linux.
- Return auth tag for GCM ciphers from auto padding shortcircuit
- Use _ring_ for ed25519 signing
---------
Co-authored-by: Divy Srivastava <dj.srivastava23@gmail.com>
This completely rewrites how we handle key material in ext/node. Changes
in this
PR:
- **Signing**
- RSA
- RSA-PSS 🆕
- DSA 🆕
- EC
- ED25519 🆕
- **Verifying**
- RSA
- RSA-PSS 🆕
- DSA 🆕
- EC 🆕
- ED25519 🆕
- **Private key import**
- Passphrase encrypted private keys 🆕
- RSA
- PEM
- DER (PKCS#1) 🆕
- DER (PKCS#8) 🆕
- RSA-PSS
- PEM
- DER (PKCS#1) 🆕
- DER (PKCS#8) 🆕
- DSA 🆕
- EC
- PEM
- DER (SEC1) 🆕
- DER (PKCS#8) 🆕
- X25519 🆕
- ED25519 🆕
- DH
- **Public key import**
- RSA
- PEM
- DER (PKCS#1) 🆕
- DER (PKCS#8) 🆕
- RSA-PSS 🆕
- DSA 🆕
- EC 🆕
- X25519 🆕
- ED25519 🆕
- DH 🆕
- **Private key export**
- RSA 🆕
- DSA 🆕
- EC 🆕
- X25519 🆕
- ED25519 🆕
- DH 🆕
- **Public key export**
- RSA
- DSA 🆕
- EC 🆕
- X25519 🆕
- ED25519 🆕
- DH 🆕
- **Key pair generation**
- Overhauled, but supported APIs unchanged
This PR adds a lot of new individual functionality. But most importantly
because
of the new key material representation, it is now trivial to add new
algorithms
(as shown by this PR).
Now, when adding a new algorithm, it is also widely supported - for
example
previously we supported ED25519 key pair generation, but we could not
import,
export, sign or verify with ED25519. We can now do all of those things.
