This commit adds initial support for `--preload` (aliased to `--import`)
flag that allows to load and execute multiple ES modules before the
entry point modules is executed.
This command is available in `deno run`, `deno test` and `deno bench`
subcommands.
Closes https://github.com/denoland/deno/issues/29776
This commits adds `DENO_AUTO_SERVE` env var, that when specified
makes `deno run` behave like `deno serve` if the entrypoint satisfies
the `Deno.ServeDefaultExport` interface.
Fixes#16899.
Fixes https://github.com/denoland/deno/issues/23524.
Fixes https://github.com/denoland/deno/issues/23938.
Fixes https://github.com/denoland/deno/issues/27869.
Unblocks #5501.
This PR adds support for additional stdio pipes to windows, as well as
the detached option in `node:child_process`. I also ported over the
`kill` implementation for windows, which means we now can support
`kill(0)` as well as some other signals.
This means that playwright will now work on windows.
Now that we have a way to support detached processes on all platforms,
we can also easily add a `detached` option to `Deno.Command`, similar to
`child_process.spawn`.
---
The reason for moving away from `std::process::Command` is that the
standard library doesn't expose what we need to control the file
descriptor table of child processes on windows. The implementation here
is based off of parts of `std` and parts of `libuv`, and allows us to
support passing extra pipes in addition to detached processes on
windows.
Since `rust 1.87.0` reported `undefined symbol:
ring::pbkdf2::PBKDF2_HMAC_SHA1::*` in CI and it was difficult to debug
locally, use `rust 1.86.0` in CI tests for troubleshoot the errors
This commit adds a signal handler for SIGUSR2 that helps reduce the
memory usage of both main worker and web worker by:
1. Triggering `malloc_trim(0)` to release memory back to the system
2. Invoking V8 isolate's `low_memory_notification` function
This is only available on Linux and enabled when `DENO_USR2_MEMORY_TRIM`
env var is specified.
---------
Co-authored-by: Yusuke Tanaka <yusuktan@maguro.dev>
This change configures V8 isolates to respect memory limits imposed by
cgroups on Linux.
It adds support for detecting both cgroups v1 and v2 memory limits,
enabling Deno to properly adapt to containerized environments with
memory constraints. When cgroups information is unavailable or not
applicable, it falls back to using the system's total memory as before.
Closes#29077
## Test
For testing, I created a ubuntu VM with 1Gi memory. Within this VM, set
up a cgroup with 512Mi memory limit, then ran the following script to
see how much heap size limit the V8 isolate had.
```js
import * as v8 from "node:v8";
console.log(v8.getHeapStatistics());
```
### Ubuntu 20.04
In this version of ubuntu, hybrid mode is enabled by default.
```
$ cat /proc/self/cgroup
12:rdma:/
11:blkio:/user.slice
10:devices:/user.slice
9:cpu,cpuacct:/user.slice
8:pids:/user.slice/user-1000.slice/session-3.scope
7:memory:/user.slice/user-1000.slice/session-3.scope
6:perf_event:/
5:freezer:/
4:net_cls,net_prio:/
3:hugetlb:/
2:cpuset:/
1:name=systemd:/user.slice/user-1000.slice/session-3.scope
0::/user.slice/user-1000.slice/session-3.scope
```
Create a new cgroup with 512Mi memory limit and run the above script in
this cgroup:
```
$ sudo cgcreate -g memory:/mygroup
$ sudo cgset -r memory.limit_in_bytes=$((512 * 1024 * 1024)) mygroup
$ sudo cgexec -g memory:mygroup ./deno run main.mjs
{
total_heap_size: 7745536,
total_heap_size_executable: 0,
total_physical_size: 7090176,
total_available_size: 266348216,
used_heap_size: 6276752,
heap_size_limit: 271581184,
malloced_memory: 303200,
peak_malloced_memory: 140456,
does_zap_garbage: 0,
number_of_native_contexts: 1,
number_of_detached_contexts: 0,
total_global_handles_size: 24576,
used_global_handles_size: 22432,
external_memory: 3232012
}
```
This indicates that the isolate was informed of cgroup-constrained
memory limit (512Mi) and hence got ~270M heap limit.
### Ubuntu 22.04
In this version of ubuntu, cgroup v2 is used.
```
$ cat /proc/self/cgroup
0::/user.slice/user-1000.slice/session-3.scope
```
Run the above script using `systemd-run`:
```
$ sudo systemd-run --property=MemoryMax=512M --pty bash -c '/home/ubuntu/deno run /home/ubuntu/main.mjs'
{
total_heap_size: 7745536,
total_heap_size_executable: 0,
total_physical_size: 7090176,
total_available_size: 266348184,
used_heap_size: 6276784,
heap_size_limit: 271581184,
malloced_memory: 303200,
peak_malloced_memory: 140456,
does_zap_garbage: 0,
number_of_native_contexts: 1,
number_of_detached_contexts: 0,
total_global_handles_size: 24576,
used_global_handles_size: 22432,
external_memory: 3232012
}
```
Again the isolate got ~270M heap limit properly.
Note that it should have had bigger heap limit if the entire system
memory, i.e. 1Gi, had been passed to V8. In fact, if we run the same
script outside the cgroup, it does display larger `heap_size_limit` like
below:
```
$ ./deno run main.mjs
{
total_heap_size: 7745536,
total_heap_size_executable: 0,
total_physical_size: 7090176,
total_available_size: 546580152,
used_heap_size: 6276752,
heap_size_limit: 551813120,
malloced_memory: 303200,
peak_malloced_memory: 140456,
does_zap_garbage: 0,
number_of_native_contexts: 1,
number_of_detached_contexts: 0,
total_global_handles_size: 24576,
used_global_handles_size: 22432,
external_memory: 3232012
}
```
---------
Signed-off-by: Yusuke Tanaka <wing0920@gmail.com>
Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com>
implement lazy(?) mode. an unconfigured jsruntime is created if
DENO_UNSTABLE_CONTROL_SOCK is present, and later passed into deno_runtime to be
configured and used.
This commit adds "deno_features" crate that contains definitions of all
unstable features in Deno.
Based on these definitions, both Rust and JS code is generated ensuring
that the two are always in sync.
In addition some of flag handling was rewritten to use the generated
definitions, instead of hand rolling these flag definitions.
---------
Co-authored-by: snek <snek@deno.com>
This extracts out the shared libraries and `.node` native modules to a
temp file and opens them from there. **This means that this
implementation will not work in every scenario.** For example, a library
could require other files that only exist in the in-memory file system.
To solve that, we'll introduce
https://github.com/denoland/deno/issues/28918 later or adapt this
solution to solve more issues.
Additionally, this will not work when run on readonly file systems.
Deno.serve `Request` abort signals are aborted by default even when it
is finished successfully. This PR gates this behavior behind the
"legacy_abort" which is the default right now.
Turning the `no_legacy_abort` runtime option on is a **breaking change**
and will only abort request signals when there is a failure, thereby
cannot be used to determine if the request finished. This aligns with
`fetch` API.
Ref https://github.com/denoland/deno/issues/27005
Extracted out of https://github.com/denoland/deno/pull/27838/files
Reduces some allocations by accepting either a pathbuf or url for the
referrer for resolution and returning either a pathbuf or url at the
end, which the caller can then convert into to their preferred state.
This is about 4% faster when still converting the final result to a url
and 6% faster when keeping the result as a path in a benchmark I ran.
This slightly degrades the performance of CJS export analysis on
subsequent runs because I changed it to no longer cache in the DENO_DIR
with this PR (denort now properly has no idea about the DENO_DIR). We'll
have to change it to embed this data in the binary and that will also
allow us to get rid of swc in denort (will do that in a follow-up PR).
