The internal file ReactSharedSubset is what the `react` module resolves
to when imported from a Server Component environment. We gave it this
name because, originally, the idea was that Server Components can access
a subset of the APIs available on the client.
However, since then, we've also added APIs that can _only_ by accessed
on the server and not the client. In other words, it's no longer a
subset, it's a slightly different overlapping set.
So this commit renames ReactSharedSubet to ReactServer and updates all
the references. This does not affect the public API, only our internal
implementation.
This wires up the use of `async_hooks` in the Node build (as well as the
Edge build when a global is available) in DEV mode only. This will be
used to track debug info about what suspended during an RSC pass.
Enabled behind a flag for now.
## Summary
Follow up from #27717 based on feedback to rename the fork module itself
## How did you test this change?
- `yarn build`
- `yarn test
packages/scheduler/src/__tests__/SchedulerUMDBundle-test.internal.js`
Co-authored-by: Jack Pope <jackpope@meta.com>
This PR adds a new FB-specific configuration of Flight. We also need to
bundle a version of ReactSharedSubset that will be used for running
Flight on the server.
This initial implementation does not support server actions yet.
The FB-Flight still uses the text protocol on the server (the flag
`enableBinaryFlight` is set to false). It looks like we need some
changes in Hermes to properly support this binary format.
## Summary
After changes in https://github.com/facebook/react/pull/27436, UMD
builds no longer expose Scheduler from ReactSharedInternals. This module
is forked in rollup for UMD builds and the path no longer matches. This
PR updates the path name to match the new module:
ReactSharedInternalsClient.
## How did you test this change?
- `yarn build`
- Inspect `react.development.js` UMD build, observe `Scheduler:
Scheduler` is set in `ReactSharedInternals`, matching
[18.2.0](https://unpkg.com/react@18.2.0/umd/react.development.js)
- ran attribute-behavior fixture app
- Observe no more error `Uncaught (in promise) TypeError: Cannot read
properties of undefined (reading 'unstable_cancelCallback')`
Co-authored-by: Jack Pope <jackpope@meta.com>
## Summary
I had to change the commands to be windows specific so that it doesn't
cause any crashes
## How did you test this change?
I successfully built the different types of devtools extenstions on my
personal computer. In future may need to add a github action with
windows config to test these errors
#27193
In order to make Haste work with React's artifacts, It is important to
keep headers in this format:
```
/**
* ...
...
* ...
*/
```
For optimization purposes, Closure compiler will actually modify these
headers by removing * prefixes, which is expected.
We should pass sources to the compiler without license headers, with
these changes the current flow will be:
1. Apply top-level definitions. For UMD-bundles, for example, or
DEV-only bundles (e. g. `if (__DEV__) { ...`)
2. Apply licence headers for artifacts with sourcemaps: oss-production
and oss-profiling bundles, they don't need to preserve the header format
to comply with Haste. We need to apply these headers before passing
sources to Closure, so it can build correct mappings for sourcemaps.
3. Pass these sources to closure compiler for minification and
sourcemaps building.
4. Apply licence headers for artifacts without sourcemaps: dev bundles,
fb bundles. This way the header style will be preserved and not changed
by Closure.
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## Summary
This PR updates the Rollup build pipeline to generate sourcemaps for
production build artifacts like `react-dom.production.min.js`.
It requires the Rollup v3 changes that were just merged in #26442 .
Sourcemaps are currently _only_ generated for build artifacts that are
_truly_ "production" - no sourcemaps will be generated for development,
profiling, UMD, or `shouldStayReadable` artifacts.
The generated sourcemaps contain the bundled source contents right
before that chunk was minified by Closure, and _not_ the original source
files like `react-reconciler/src/*`. This better reflects the actual
code that is running as part of the bundle, with all the feature flags
and transformations that were applied to the source files to generate
that bundle. The sourcemaps _do_ still show comments and original
function names, thus improving debuggability for production usage.
Fixes#20186 .
<!--
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This allows React users to actually debug a readable version of the
React bundle in production scenarios. It also allows other tools like
[Replay](https://replay.io) to do a better job inspecting the React
source when stepping through.
## How did you test this change?
- Generated numerous sourcemaps with various combinations of the React
bundle selections
- Viewed those sourcemaps in
https://evanw.github.io/source-map-visualization/ and confirmed via the
visualization that the generated mappings appear to be correct
I've attached a set of production files + their sourcemaps here:
[react-sourcemap-examples.zip](https://github.com/facebook/react/files/11023466/react-sourcemap-examples.zip)
You can drag JS+sourcemap file pairs into
https://evanw.github.io/source-map-visualization/ for viewing.
Examples:
- `react.production.min.js`:
- `react-dom.production.min.js`:
- `use-sync-external-store/with-selector.production.min.js`:
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Updates useFormState to allow a sync function to be passed as an action.
A form action is almost always async, because it needs to talk to the
server. But since we support client-side actions, too, there's no reason
we can't allow sync actions, too.
I originally chose not to allow them to keep the implementation simpler
but it's not really that much more complicated because we already
support this for actions passed to startTransition. So now it's
consistent: anywhere an action is accepted, a sync client function is a
valid input.
Reverts facebook/react#27577.
We also sync React Native OSS bundles which means this didn't work as
hoped unless we abandon the commit hash in OSS which seems useful.
Similar to #26734, this switches the RN builds for Meta to a content
hash instead of git commit number to make the builds reproducible and
avoid creating sync commits if the bundled content didn't change.
## Summary
When transpiling `react-native` with `swc` this file caused some trouble
as it mixes ESM and CJS import/export syntax. This PR addresses this by
converting CJS exports to ESM exports. As
`ReactNativeViewConfigRegistry` is synced from `react` to `react-native`
repository, it's required to make the change here. I've also aligned the
mock of `ReactNativeViewConfigRegistry` to reflect current
implementation.
Related PR in `react-native`:
https://github.com/facebook/react-native/pull/40787
This lets a registered object or value be "tainted", which we block from
crossing the serialization boundary. It's only allowed to stay
in-memory.
This is an extra layer of protection against mistakes of transferring
data from a data access layer to a client. It doesn't provide perfect
protection, because it doesn't trace through derived values and
substrings. So it shouldn't be used as the only security layer but more
layers are better.
`taintObjectReference` is for specific object instances, not any nested
objects or values inside that object. It's useful to avoid specific
objects from getting passed as is. It ensures that you don't
accidentally leak values in a specific context. It can be for security
reasons like tokens, privacy reasons like personal data or performance
reasons like avoiding passing large objects over the wire.
It might be privacy violation to leak the age of a specific user, but
the number itself isn't blocked in any other context. As soon as the
value is extracted and passed specifically without the object, it can
therefore leak.
`taintUniqueValue` is useful for high entropy values such as hashes,
tokens or crypto keys that are very unique values. In that case it can
be useful to taint the actual primitive values themselves. These can be
encoded as a string, bigint or typed array. We don't currently check for
this value in a substring or inside other typed arrays.
Since values can be created from different sources they don't just
follow garbage collection. In this case an additional object must be
provided that defines the life time of this value for how long it should
be blocked. It can be `globalThis` for essentially forever, but that
risks leaking memory for ever when you're dealing with dynamic values
like reading a token from a database. So in that case the idea is that
you pass the object that might end up in cache.
A request is the only thing that is expected to do any work. The
principle is that you can derive values from out of a tainted
entry during a request. Including stashing it in a per request cache.
What you can't do is store a derived value in a global module level
cache. At least not without also tainting the object.
I do this by simply renaming the secret export name in the "subset"
bundle and this renamed version is what the FlightServer uses.
This requires us to be more diligent about always using the correct
instance of "react" in our tests so there's a bunch of clean up for
that.
stacked on #27314
Turbopack requires a different module loading strategy than Webpack and
as such this PR implements a new package `react-server-dom-turbopack`
which largely follows the `react-server-dom-webpack` but is implemented
for this new bundler
To support MPA-style form submissions, useFormState sends down a key
that represents the identity of the hook on the page. It's based on the
key path of the component within the React tree; for deeply nested
hooks, this keypath can become very long. We can hash the key to make it
shorter.
Adds a method called createFastHash to the Stream Config interface.
We're not using this for security or obfuscation, only to generate a
more compact key without sacrificing too much collision resistance.
- In Node.js builds, createFastHash uses the built-in crypto module.
- In Bun builds, createFastHash uses Bun.hash. See:
https://bun.sh/docs/api/hashing#bun-hash
I have not yet implemented createFastHash in the Edge, Browser, or FB
(Hermes) stream configs because those environments do not have a
built-in hashing function that meets our requirements. (We can't use the
web standard `crypto` API because those methods are async, and yielding
to the main thread is too costly to be worth it for this particular use
case.) We'll likely use a pure JS implementation in those environments;
for now, they just return the original string without hashing it. I'll
address this in separate PRs.
Adds a separate entry point for the react-dom package when it's accessed
from a Server Component environment, using the "react-server" export
condition.
When you're inside a Server Component module, you won't be able to
import client-only APIs like useState. This applies to almost all React
DOM exports, except for Float ones like preload.
This joins the static (prerender) builds with the server builds but
doesn't change the public entry points.
The idea of two separate bundles is that we'd have a specialized build
for Fizz just for the prerender that could do a lot more. However, in
practice the code is implemented with a dynamic check so it's in both.
It's also not a lot of code.
At the same time if you do have a set up that includes both the
prerender and the render in the same build output, this just doubles the
server bundle size for no reason.
So we might as well merge them into one build. However, I don't expose
the `prerender` from `/server`. Instead it's just exposed from the
public `/static` entry point. This leaves us with the option to go back
to separate builds later if it diverges more in the future.
This exposes a `resume()` API to go with the `prerender()` (only in
experimental). It doesn't work yet since we don't yet emit the postponed
state so not yet tested.
The main thing this does is rename ResponseState->RenderState and
Resources->ResumableState. We separated out resources into a separate
concept preemptively since it seemed like separate enough but probably
doesn't warrant being a separate concept. The result is that we have a
per RenderState in the Config which is really just temporary state and
things that must be flushed completely in the prerender. Most things
should be ResumableState.
Most options are specified in the `prerender()` and transferred into the
`resume()` but certain options that are unique per request can't be.
Notably `nonce` is special. This means that bootstrap scripts and
external runtime can't use `nonce` in this mode. They need to have a CSP
configured to deal with external scripts, but not inline.
We need to be able to restore state of things that we've already emitted
in the prerender. We could have separate snapshot/restore methods that
does this work when it happens but that means we have to explicitly do
that work. This design is trying to keep to the principle that we just
work with resumable data structures instead so that we're designing for
it with every feature. It also makes restoring faster since it's just
straight into the data structure.
This is not yet a serializable format. That can be done in a follow up.
We also need to vet that each step makes sense. Notably stylesToHoist is
a bit unclear how it'll work.
Search for more generic fork files if an exact match does not exist. If
`forks/MyFile.dom.js` exists but `forks/MyFile.dom-node.js` does not
then use it when trying to resolve forks for the `"dom-node"` renderer
in flow, tests, and build
consolidate certain fork files that were identical and make semantic
sense to be generalized
add `dom-browser-esm` bundle and use it for
`react-server-dom-esm/client.browser` build
We already did this for Server References on the Client so this brings
us parity with that. This gives us some more flexibility with changing
the runtime implementation without having to affect the loaders.
We can also do more in the runtime such as adding `.bind()` support to
Server References.
I also moved the CommonJS Proxy creation into the runtime helper from
the register so that it can be handled in one place.
This lets us remove the forks from Next.js since the loaders can be
simplified there to just use these helpers.
This PR doesn't change the protocol or shape of the objects. They're
still specific to each bundler but ideally we should probably move this
to shared helpers that can be used by multiple bundler implementations.
This uses the same mechanism as [large
strings](https://github.com/facebook/react/pull/26932) to encode chunks
of length based binary data in the RSC payload behind a flag.
I introduce a new BinaryChunk type that's specific to each stream and
ways to convert into it. That's because we sometimes need all chunks to
be Uint8Array for the output, even if the source is another array buffer
view, and sometimes we need to clone it before transferring.
Each type of typed array is its own row tag. This lets us ensure that
the instance is directly in the right format in the cached entry instead
of creating a wrapper at each reference. Ideally this is also how
Map/Set should work but those are lazy which complicates that approach a
bit.
We assume both server and client use little-endian for now. If we want
to support other modes, we'd convert it to/from little-endian so that
the transfer protocol is always little-endian. That way the common
clients can be the fastest possible.
So far this only implements Server to Client. Still need to implement
Client to Server for parity.
NOTE: This is the first time we make RSC effectively a binary format.
This is not compatible with existing SSR techniques which serialize the
stream as unicode in the HTML. To be compatible, those implementations
would have to use base64 or something like that. Which is what we'll do
when we move this technique to be built-in to Fizz.
This isn't really meant to be actually used, there are many issues with
this approach, but it shows the capabilities as a proof-of-concept.
It's a new reference implementation package `react-server-dom-esm` as
well as a fixture in `fixtures/flight-esm` (fork of `fixtures/flight`).
This works pretty much the same as pieces we already have in the Webpack
implementation but instead of loading modules using Webpack on the
client it uses native browser ESM.
To really show it off, I don't use any JSX in the fixture and so it also
doesn't use Babel or any compilation of the files.
This works because we don't actually bundle the server in the reference
implementation in the first place. We instead use [Node.js
Loaders](https://nodejs.org/api/esm.html#loaders) to intercept files
that contain `"use client"` and `"use server"` and replace them. There's
a simple check for those exact bytes, and no parsing, so this is very
fast.
Since the client isn't actually bundled, there's no module map needed.
We can just send the file path to the file we want to load in the RSC
payload for client references.
Since the existing reference implementation for Node.js already used ESM
to load modules on the server, that all works the same, including Server
Actions. No bundling.
There is one case that isn't implemented here. Importing a `"use
server"` file from a Client Component. We don't have that implemented in
the Webpack reference implementation neither - only in Next.js atm. In
Webpack it would be implemented as a Webpack loader.
There are a few ways this can be implemented without a bundler:
- We can intercept the request from the browser importing this file in
the HTTP server, and do a quick scan for `"use server"` in the file and
replace it just like we do with loaders in Node.js. This is effectively
how Vite works and likely how anyone using this technique would have to
support JSX anyway.
- We can use native browser "loaders" once that's eventually available
in the same way as in Node.js.
- We can generate import maps for each file and replace it with a
pointer to a placeholder file. This requires scanning these ahead of
time which defeats the purposes.
Another case that's not implemented is the inline `"use server"` closure
in a Server Component. That would require the existing loader to be a
bit smarter but would still only "compile" files that contains those
bytes in the fast path check. This would also happen in the loader that
already exists so wouldn't do anything substantially different than what
we currently have here.
The bindings upstream in Relay has been removed so we don't need these
builds anymore. The idea is to revisit an FB integration of Flight but
it wouldn't use the Relay specific bindings. It's a bit unclear how it
would look but likely more like the OSS version so not worth keeping
these around.
The `dom-relay` name also included the FB specific Fizz implementation
of the streaming config so I renamed that to `dom-fb`. There's no Fizz
implementation for Native yet so I just removed `native-relay`.
We created a configurable fork for how to encode the output of Flight
and the Relay implementation encoded it as JSON objects instead of
strings/streams. The new implementation would likely be more stream-like
and just encode it directly as string/binary chunks. So I removed those
indirections so that this can just be declared inline in
ReactFlightServer/Client.
## Summary
To support incremental adoption of bridgeless logic we want to default
to using these globals whenever they're available.
## How did you test this change?
https://github.com/facebook/react-native/pull/37410
The "next" prerelease channel represents what will be published the next
time we do a stable release. We publish a new "next" release every day
using a timed CI workflow.
When we introduced this prerelease channel a few years ago, another name
we considered was "canary". But I proposed "next" instead to create a
greater distinction between this channel and the "experimental" channel
(which is published at the same cadence, but includes extra experimental
features), because some other projects use "canary" to refer to releases
that are more unstable than how we would use it.
The main downside of "next" is someone might mistakenly assume the name
refers to Next.js. We were aware of this risk at the time but didn't
think it would be an issue in practice.
However, colloquially, we've ended up referring to this as the "canary"
channel anyway to avoid precisely that confusion.
So after further discussion, we've agreed to rename to "canary".
This affects the label used in the version string (e.g.
`18.3.0-next-a1c2d3e4` becomes `18.3.0-canary-a1c2d3e4`) as well as the
npm dist tags used to publish the releases. For now, I've chosen to
publish the canaries using both `@canary` and `@next` dist tags, so that
downstream consumers who might depend on `@next` have time to adjust. We
can remove that later after the change has been communicated.
## Summary
We added some post-processing in the build for RN in #26616 that broke
for users on Windows due to how line endings were handled to the regular
expression to insert some directives in the docblock. This fixes that
problem, reported in #26697 as well.
## How did you test this change?
Verified files are still built correctly on Mac/Linux. Will ask for help
to test on Windows.
We used to have Event Replaying for any kind of Discrete event where
we'd track any event after hydrateRoot and before the async code/data
has loaded in to hydrate the target. However, this didn't really work
out because code inside event handlers are expected to be able to
synchronously read the state of the world at the time they're invoked.
If we replay discrete events later, the mutable state around them like
selection or form state etc. may have changed.
This limitation doesn't apply to Client Actions:
- They're expected to be async functions that themselves work
asynchronously. They're conceptually also in the "navigation" events
that happen after the "submit" events so they're already not
synchronously even before the first `await`.
- They're expected to operate mostly on the FormData as input which we
can snapshot at the time of the event.
This PR adds a bit of inline script to the Fizz runtime (or external
runtime) to track any early submit events on the page - but only if the
action URL is our placeholder `javascript:` URL. We track a queue of
these on `document.$$reactFormReplay`. Then we replay them in order as
they get hydrated and we get a handle on the Client Action function.
I add the runtime to the `bootstrapScripts` phase in Fizz which is
really technically a little too late, because on a large page, it might
take a while to get to that script even if you have displayed the form.
However, that's also true for external runtime. So there's a very short
window we might miss an event but it's good enough and better than
risking blocking display on this script.
The main thing that makes the replaying difficult to reason about is
that we can have multiple instance of React using this same queue. This
would be very usual but you could have two different Reacts SSR:ing
different parts of the tree and using around the same version. We don't
have any coordinating ids for this. We could stash something on the form
perhaps but given our current structure it's more difficult to get to
the form instance in the commit phase and a naive solution wouldn't
preserve ordering between forms.
This solution isn't 100% guaranteed to preserve ordering between
different React instances neither but should be in order within one
instance which is the common case.
The hard part is that we don't know what instance something will belong
to until it hydrates. So to solve that I keep everything in the original
queue while we wait, so that ordering is preserved until we know which
instance it'll go into. I ended up doing a bunch of clever tricks to
make this work. These could use a lot more tests than I have right now.
Another thing that's tricky is that you can update the action before
it's replayed but we actually want to invoke the old action if that
happens. So we have to extract it even if we can't invoke it right now
just so we get the one that was there during hydration.
Stacked on #26557
Supporting Float methods such as ReactDOM.preload() are challenging for
flight because it does not have an easy means to convey direct
executions in other environments. Because the flight wire format is a
JSON-like serialization that is expected to be rendered it currently
only describes renderable elements. We need a way to convey a function
invocation that gets run in the context of the client environment
whether that is Fizz or Fiber.
Fiber is somewhat straightforward because the HostDispatcher is always
active and we can just have the FlightClient dispatch the serialized
directive.
Fizz is much more challenging becaue the dispatcher is always scoped but
the specific request the dispatch belongs to is not readily available.
Environments that support AsyncLocalStorage (or in the future
AsyncContext) we will use this to be able to resolve directives in Fizz
to the appropriate Request. For other environments directives will be
elided. Right now this is pragmatic and non-breaking because all
directives are opportunistic and non-critical. If this changes in the
future we will need to reconsider how widespread support for async
context tracking is.
For Flight, if AsyncLocalStorage is available Float methods can be
called before and after await points and be expected to work. If
AsyncLocalStorage is not available float methods called in the sync
phase of a component render will be captured but anything after an await
point will be a noop. If a float call is dropped in this manner a DEV
warning should help you realize your code may need to be modified.
This PR also introduces a way for resources (Fizz) and hints (Flight) to
flush even if there is not active task being worked on. This will help
when Float methods are called in between async points within a function
execution but the task is blocked on the entire function finishing.
This PR also introduces deduping of Hints in Flight using the same
resource keys used in Fizz. This will help shrink payload sizes when the
same hint is attempted to emit over and over again
- substr is Annex B
- substring silently flips its arguments if they're in the "wrong order", which is confusing
- slice is better than sliced bread (no pun intended) and also it works the same way on Arrays so there's less to remember
---
> I'd be down to just lint and enforce a single form just for the potential compression savings by using a repeated string.
_Originally posted by @sebmarkbage in https://github.com/facebook/react/pull/26663#discussion_r1170455401_
We have moved away from HostConfig since the name does not fully
describe the configs we customize per runtime like FlightClient,
FlightServer, Fizz, and Fiber. This commit generalizes $$$hostconfig to
$$$config
part of https://github.com/facebook/react/pull/26571
merging separately to improve tracking of files renames in git
Rename HostConfig files to FiberConfig to clarify they are configs for
Fiber and not Fizz/Flight. This better conforms to the naming used in
Flight and now Fizz of `ReactFlightServerConfig` and `ReactFizzConfig`
Follow-up to https://github.com/facebook/react/pull/26442.
It looks like we missed a few cases where we default import a CommonJS
module, which leads to Rollup adding `.default` access, e.g.
`require('webpack/lib/Template').default` in the output.
To fix, add the remaining cases to the list of exceptions. Verified by
going through all `externals` in the bundle list, and manually checking
the webpack plugin.
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## Summary
This PR:
- Updates Rollup from 2.x to latest 3.x, and updates associated plugins
- Updates deprecated / altered config settings in the Rollup plugin
pipeline
- Fixes some file extension and import issues related to use of ESM in
`react-dom-webpack-server`
- Removes a now-obsolete `strip-unused-imports` Rollup plugin
- <s>Fixes an _existing_ bug with the Rollup 2.x plugin pipeline on
`main` that was causing parts of `DOMProperty.js` to get left out of the
`react-dom-webpack-server` JS bundles, by adding a new plugin to tell
Rollup to treat that file as if it as side effects</s>
This PR should be functionally identical to the other existing "Rollup 3
upgrade" PR at #26078 . I'm filing this as a near-duplicate because I'm
ready to push this change through ASAP so that I can follow it up with a
PR that adds sourcemap support, that PR's artifact diffing seems like
it's possibly stuck and I want to compare the build results, and I've
got this set up against latest `main`.
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This gets React's build setup updated to the latest Rollup version,
which is generally a good practice, but also ensures that any further
Rollup config tweaks can be done using the current Rollup docs as a
reference.
## How did you test this change?
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- Made builds from the latest `main`
- Updated Rollup package versions and cross-compared the changes I
needed to make locally to get successful builds vs #26078
- Diffed the output folders between `main` and this PR, and confirmed
that the bundle contents are identical (with the exception of version
strings and the `react-dom-webpack-server` bundle fix re-adding missing
`DOMProperty.js` content)
This doesn't need its own set of flags. We use things like `__PROFILE__`
in the regular feature flags file to fork for the `react-dom/profiling`
build so we can do the same here if needed but I don't think we actually
need to fork this anywhere as far as I can tell.
If something throws as a result of `flushSync`, and there's remaining
work left in the queue, React should keep working until all the work is
complete.
If multiple errors are thrown, React will combine them into an
AggregateError object and throw that. In environments where
AggregateError is not available, React will rethrow in an async task.
(All the evergreen runtimes support AggregateError.)
The scenario where this happens is relatively rare, because `flushSync`
will only throw if there's no error boundary to capture the error.
Currently, any commit to React causes an internal sync since the Git
commit hash is part of the build. This creates a lot more sync commits
and noise than necessary, see:
https://github.com/facebook/react/commits/builds/facebook-www
This PR changes the version string to be a hash of the target build
files instead. This way we get a new version with any change that
actually impacts the generated files and still have a matching version
across the files.
Some build artifacts contain multiple version strings. It seems like an
oversight to me that this `.replace` call just replaces the one that
happens to be first.
This splits out the Edge and Node implementations of Flight Client into
their own implementations. The Node implementation now takes a Node
Stream as input.
I removed the bundler config from the Browser variant because you're
never supposed to use that in the browser since it's only for SSR.
Similarly, it's required on the server. This also enables generating a
SSR manifest from the Webpack plugin. This is necessary for SSR so that
you can reverse look up what a client module is called on the server.
I also removed the option to pass a callServer from the server. We might
want to add it back in the future but basically, we don't recommend
calling Server Functions from render for initial render because if that
happened client-side it would be a client-side waterfall. If it's never
called in initial render, then it also shouldn't ever happen during SSR.
This might be considered too restrictive.
~This also compiles the unbundled packages as ESM. This isn't strictly
necessary because we only need access to dynamic import to load the
modules but we don't have any other build options that leave
`import(...)` intact, and seems appropriate that this would also be an
ESM module.~ Went with `import(...)` in CJS instead.
