This PR adds a preload for bootstrapScripts. preloads are captured
synchronously when you create a new Request and as such the normal logic
to check if a preload already exists is skipped.
E.g. if we suspend (throw a promise) in pushStartInstance today we might
have already pushed some chunks (or even child segments potentially). We
should revert back to where we were.
This doesn't usually happen because when we suspend in a component it
doesn't write anything itself, it'll always defer to som host instance
to do the writing.
There was a todo about this already but I'm not 100% sure it's always
safe when suspending. It should be safe when suspending just regularly
because it's just a noop. We might not even want "throwing a promise" in
this mechanism to be supported longer term but for now that's how a
suspend in internals.
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
Added an explicit type to all $FlowFixMe suppressions to reduce
over-suppressions of new errors that might be caused on the same lines.
Also removes suppressions that aren't used (e.g. in a `@noflow` file as
they're purely misleading)
Test Plan:
yarn flow-ci
## Based on #25634
Like promises, this adds support for Context as a React node.
In this initial implementation, the context dependency is added to the
parent of child node. This allows the parent to re-reconcile its
children when the context updates, so that it can delete the old node if
the identity of the child has changed (i.e. if the key or type of an
element has changed). But it also means that the parent will replay its
entire begin phase. Ideally React would delete the old node and mount
the new node without reconciling all the children. I'll leave this for a
future optimization.
Implements Promise as a valid React node types. The idea is that any
type that can be unwrapped with `use` should also be renderable.
When the reconciler encounters a Usable in a child position, it will
transparently unwrap the value before reconciling it. The value of the
inner value will determine the identity of the child during
reconciliation, not the Usable object that wraps around it.
Unlike `use`, the reconciler will recursively unwrap the value until it
reaches a non-Usable type, e.g. `Usable<Usable<Usable<T>>>` will resolve
to T.
In this initial commit, I've added support for Promises. I will do
Context in the [next
step](https://github.com/facebook/react/pull/25641).
Being able to render a promise as a child has several interesting
implications. The Server Components response format can use this feature
in its implementation — instead of wrapping references to client
components in `React.lazy`, it can just use a promise.
This also fulfills one of the requirements for async components on the
client, because an async component always returns a promise for a React
node. However, we will likely warn and/or lint against this for the time
being because there are major caveats if you re-render an async
component in response to user input. (Note: async components already
work in a Server Components environment — the caveats only apply to
running them in the browser.)
To suspend, React uses the same algorithm as `use`: by throwing an
exception to unwind the stack, then replaying the begin phase once the
promise resolves. It's a little weird to suspend during reconciliation,
however, `lazy` already does this so if there were any obvious bugs
related to that we likely would have already found them.
Still, the structure is a bit unfortunate. Ideally, we shouldn't need to
replay the entire begin phase of the parent fiber in order to reconcile
the children again. This would require a somewhat significant refactor,
because reconciliation happens deep within the begin phase, and
depending on the type of work, not always at the end. We should consider
as a future improvement.
There is a problem with <style> as resource. For css-in-js libs there
may be an very large number of these hoistables being created. The
number of style tags can grow quickly and to help reduce the prevalence
of this FIzz now aggregates all style tags for a given precedence into a
single tag. The client can 'hydrate' against these compound tags but
currently on the client insertions are done individually.
additionally drops the implementation where style tags are embedding in
a template for one where `media="not all"` is set. The idea is to have
the browser construct the underlying stylesheet eagerly which does not
happen if the tag is embedded in a template
Key Decision:
One choice made in this PR is that we flush style tags eagerly even if a
boundary is blocked that is the only thing that depends on that style
rule. The reason we are starting with this implementation is that it
allows a very condensed representation of the style resources. If we
tracked which rules were used in which boundaries we would need a style
resource for every rendered <style> tag. This could be problematic for
css-in-js libs that might render hundreds or thousands of style tags.
The tradeoff here is we slightly delay content reveal in some cases (we
send extra bytes) but we have fewer DOM tags and faster SSR runtime
## Hoistables
In the original implementation of Float, all hoisted elements were
treated like Resources. They had deduplication semantics and hydrated
based on a key. This made certain kinds of hoists very challenging such
as sequences of meta tags for `og:image:...` metadata. The reason is
each tag along is not dedupable based on only it's intrinsic properties.
two identical tags may need to be included and hoisted together with
preceding meta tags that describe a semantic object with a linear set of
html nodes.
It was clear that the concept of Browser Resources (stylesheets /
scripts / preloads) did not extend universally to all hositable tags
(title, meta, other links, etc...)
Additionally while Resources benefit from deduping they suffer an
inability to update because while we may have multiple rendered elements
that refer to a single Resource it isn't unambiguous which element owns
the props on the underlying resource. We could try merging props, but
that is still really hard to reason about for authors. Instead we
restrict Resource semantics to freezing the props at the time the
Resource is first constructed and warn if you attempt to render the same
Resource with different props via another rendered element or by
updating an existing element for that Resource.
This lack of updating restriction is however way more extreme than
necessary for instances that get hoisted but otherwise do not dedupe;
where there is a well defined DOM instance for each rendered element. We
should be able to update props on these instances.
Hoistable is a generalization of what Float tries to model for hoisting.
Instead of assuming every hoistable element is a Resource we now have
two distinct categories, hoistable elements and hoistable resources. As
one might guess the former has semantics that match regular Host
Components except the placement of the node is usually in the <head>.
The latter continues to behave how the original implementation of
HostResource behaved with the first iteration of Float
### Hoistable Element
On the server hoistable elements render just like regular tags except
the output is stored in special queues that can be emitted in the stream
earlier than they otherwise would be if rendered in place. This also
allow for instance the ability to render a hoistable before even
rendering the <html> tag because the queues for hoistable elements won't
flush until after we have flushed the preamble (`<DOCTYPE
html><html><head>`).
On the client, hoistable elements largely operate like HostComponents.
The most notable difference is in the hydration strategy. If we are
hydrating and encounter a hoistable element we will look for all tags in
the document that could potentially be a match and we check whether the
attributes match the props for this particular instance. We also do this
in the commit phase rather than the render phase. The reason hydration
can be done for HostComponents in render is the instance will be removed
from the document if hydration fails so mutating it in render is safe.
For hoistables the nodes are not in a hydration boundary (Root or
SuspenseBoundary at time of writing) and thus if hydration fails and we
may have an instance marked as bound to some Fiber when that Fiber never
commits. Moving the hydration matching to commit ensures we will always
succeed in pairing the hoisted DOM instance with a Fiber that has
committed.
### Hoistable Resource
On the server and client the semantics of Resources are largely the same
they just don't apply to title, meta, and most link tags anymore.
Resources hoist and dedupe via an `href` key and are ref counted. In a
future update we will add a garbage collector so we can clean up
Resources that no longer have any references
## `<style>` support
In earlier implementations there was no support for <style> tags. This
PR adds support for treating `<style href="..."
precedence="...">...</style>` as a Resource analagous to `<link
rel="stylesheet" href="..." precedence="..." />`
It may seem odd at first to require an href to get Resource semantics
for a style tag. The rationale is that these are for inlining of actual
external stylesheets as an optimization and for URI like scoping of
inline styles for css-in-js libraries. The href indicates that the key
space for `<style>` and `<link rel="stylesheet" />` Resources is shared.
and the precedence is there to allow for interleaving of both kinds of
Style resources. This is an advanced feature that we do not expect most
app developers to use directly but will be quite handy for various
styling libraries and for folks who want to inline as much as possible
once Fizz supports this feature.
## refactor notes
* HostResource Fiber type is renamed HostHoistable to reflect the
generalization of the concept
* The Resource object representation is modified to reduce hidden class
checks and to use less memory overall
* The thing that distinguishes a resource from an element is whether the
Fiber has a memoizedState. If it does, it will use resource semantics,
otherwise element semantics
* The time complexity of matching hositable elements for hydration
should be improved
This enables the "exact_empty_objects" setting for Flow which makes
empty objects exact instead of building up the type as properties are
added in code below. This is in preparation to Flow 191 which makes this
the default and removes the config.
More about the change in the Flow blog
[here](https://medium.com/flow-type/improved-handling-of-the-empty-object-in-flow-ead91887e40c).
This setting is an incremental path to the next Flow version enforcing
type annotations on most functions (except some inline callbacks).
Used
```
node_modules/.bin/flow codemod annotate-functions-and-classes --write .
```
to add a majority of the types with some hand cleanup when for large
inferred objects that should just be `Fiber` or weird constructs
including `any`.
Suppressed the remaining issues.
Builds on #25918
Flow introduced a new syntax to annotated the context type of a
function, this tries to update the rest and add 1 example usage.
- 2b1fb91a55 already added the changes
required for eslint.
- Jest transform is updated to use the recommended `hermes-parser` which
can parse current and Flow syntax and will be updated in the future.
- Rollup uses a new plugin to strip the flow types. This isn't ideal as
the npm module is deprecated in favor of using `hermes-parser`, but I
couldn't figure out how to integrate that with Rollup.
### Changes made:
- Running with enableFizzExternalRuntime (feature flag) and
unstable_externalRuntimeSrc (param) will generate html nodes with data
attributes that encode Fizz instructions.
```
<div
hidden data-rxi=""
data-bid="param0"
data-dgst="param1"
></div>
```
- Added an external runtime browser script
`ReactDOMServerExternalRuntime`, which processes and removes these nodes
- This runtime should be passed as to renderInto[...] via
`unstable_externalRuntimeSrc`
- Since this runtime is render blocking (for all streamed suspense
boundaries and segments), we want this to reach the client as early as
possible. By default, Fizz will send this script at the end of the shell
when it detects dynamic content (e.g. suspenseful pending tasks), but it
can be sent even earlier by calling `preinit(...)` inside a component.
- The current implementation relies on Float to dedupe sending
`unstable_externalRuntimeSrc`, so `enableFizzExternalRuntime` is only
valid when `enableFloat` is also set.
The old (unstable) mechanism for suspending was to throw a promise. The
purpose of throwing is to interrupt the component's execution, and also
to signal to React that the interruption was caused by Suspense as
opposed to some other error.
A flaw is that throwing is meant to be an implementation detail — if
code in userspace catches the promise, it can lead to unexpected
behavior.
With `use`, userspace code does not throw promises directly, but `use`
itself still needs to throw something to interrupt the component and
unwind the stack.
The solution is to throw an internal error. In development, we can
detect whether the error was caught by a userspace try/catch block and
log a warning — though it's not foolproof, since a clever user could
catch the object and rethrow it later.
The error message includes advice to move `use` outside of the try/catch
block.
I did not yet implement the warning in Flight.
To derisk the rollout of `use`, and simplify the implementation, this
reverts the yield-to-microtasks behavior for promises that are thrown
directly (as opposed to being unwrapped by `use`).
We may add this back later. However, the plan is to deprecate throwing a
promise directly and migrate all existing Suspense code to `use`, so the
extra code probably isn't worth it.
* Facebook -> Meta in copyright
rg --files | xargs sed -i 's#Copyright (c) Facebook, Inc. and its affiliates.#Copyright (c) Meta Platforms, Inc. and affiliates.#g'
* Manual tweaks
* Missing Hooks
* Remove www forks. These can use __SECRET... instead.
* Move cache to separate dispatcher
These will be available in more contexts than just render.
- method unbinding is no longer supported in Flow for soundness, this added a bunch of suppressions
- Flow now prevents objects to be supertypes of interfaces/classes
ghstack-source-id: d7749cbad8
Pull Request resolved: https://github.com/facebook/react/pull/25412
* [Fizz/Float] Float for stylesheet resources
This commit implements Float in Fizz and on the Client. The initial set of supported APIs is roughly
1. Convert certain stylesheets into style Resources when opting in with precedence prop
2. Emit preloads for stylesheets and explicit preload tags
3. Dedupe all Resources by href
4. Implement ReactDOM.preload() to allow for imperative preloading
5. Implement ReactDOM.preinit() to allow for imperative preinitialization
Currently supports
1. style Resources (link rel "stylesheet")
2. font Resources (preload as "font")
later updates will include support for scripts and modules
Follow up to #25084 and #25207. Implements experimental_use(promise) API
in the SSR runtime (Fizz).
This is largely a copy-paste of the Flight implementation. I have
intentionally tried to keep both as close as possible.
Implement basic support for "Resources". In the context of this commit, the only thing that is currently a Resource are
<link rel="stylesheet" precedence="some-value" ...>
Resources can be rendered anywhere in the react tree, even outside of normal parenting rules, for instance you can render a resource before you have rendered the <html><head> tags for your application. In the stream we reorder this so the browser always receives valid HTML and resources are emitted either in place (normal circumstances) or at the top of the <head> (when you render them above or before the <head> in your react tree)
On the client, resources opt into an entirely different hydration path. Instead of matching the location within the Document these resources are queried for in the entire document. It is an error to have more than one resource with the same href attribute.
The use of precedence here as an opt-in signal for resourcifying the link is in preparation for a more complete Resource implementation which will dedupe resource references (multiple will be valid), hoist to the appropriate container (body, head, or elsewhere), order (according to precedence) and Suspend boundaries that depend on them. More details will come in the coming weeks on this plan.
This feature is gated by an experimental flag and will only be made available in experimental builds until some future time.
During server rendering, a visible Offscreen subtree acts exactly like a
fragment: a pure indirection.
A hidden Offscreen subtree is not server rendered at all. It's ignored
during hydration, too. Prerendering happens only on the client. We
considered prerendering hidden trees on the server, too, but our
conclusion is that it's a waste of bytes and server computation. We
can't think of any compelling cases where it's the right trade off. (If
we ever change our mind, though, the way we'll likely model it is to
treat it as if it's a Suspense boundary with an empty fallback.)
Before this change we weren't calling onError nor onFatalError if you abort
before completing the shell.
This means that the render never completes and hangs.
Aborting early can happen before even creating the stream for AbortSignal,
before rendering starts in Node since there's an setImmediate atm, or
during rendering.
* [Fizz] Support abort reasons
Fizz supports aborting the render but does not currently accept a reason. The various render functions that use Fizz have some automatic and some user-controlled abort semantics that can be useful to communicate with the running program and users about why an Abort happened.
This change implements abort reasons for renderToReadableStream and renderToPipeable stream as well as legacy renderers such as renderToString and related implementations.
For AbortController implementations the reason passed to the abort method is forwarded to Fizz and sent to the onError handler. If no reason is provided the AbortController should construct an AbortError DOMException and as a fallback Fizz will generate a similar error in the absence of a reason
For pipeable streams, an abort function is returned alongside pipe which already accepted a reason. That reason is now forwarded to Fizz and the implementation described above.
For legacy renderers there is no exposed abort functionality but it is used internally and the reasons provided give useful context to, for instance to the fact that Suspense is not supported in renderToString-like renderers
* extend onRecoverableError API to support errorInfo
errorInfo has been used in Error Boundaries wiht componentDidCatch for a while now. To date this metadata only contained a componentStack. onRecoverableError only receives an error (type mixed) argument and thus providing additional error metadata was not possible without mutating user created mixed objects.
This change modifies rootConcurrentErrors rootRecoverableErrors, and hydrationErrors so all expect CapturedValue types. additionally a new factory function allows the creation of CapturedValues from a value plus a hash and stack.
In general, client derived CapturedValues will be created using the original function which derives a componentStack from a fiber and server originated CapturedValues will be created using with a passed in hash and optional componentStack.
* use return from onError
* export getSuspenseInstanceFallbackError
* stringToChunk
* return string from onError in downstream type signatures
* 1 more type
* support encoding errors in html stream and escape user input
This commit adds another way to get errors to the suspense instance by encoding them as dataset properties of a template element at the head of the boundary. Previously if there was an error before the boundary flushed there was no way to stream the error to the client because there would never be a client render instruction.
Additionally the error is sent in 3 parts
1) error hash - this is always sent (dev or prod) if one is provided
2) error message - Dev only
3) error component stack - Dev only, this now captures the stack at the point of error
Another item addressed in this commit is the escaping of potentially unsafe data. all error components are escaped as test for browers when written into the html and as javascript strings when written into a client render instruction.
* nits
Co-authored-by: Marco Salazar <salazarm@fb.com>
* [Fizz] Improve text separator byte efficiency
Previously text separators were inserted following any Text node in Fizz. This increases bytes sent when streaming and in some cases such as title elements these separators are not interpreted as comment nodes and leak into the visual aspects of a page as escaped text.
The reason simple tracking on the last pushed type doesn't work is that Segments can be filled in asynchronously later and so you cannot know in a single pass whether the preceding content was a text node or not. This commit adds a concept of TextEmbedding which provides a best effort signal to Segments on whether they are embedded within text. This allows the later resolution of that Segment to add text separators when possibly necessary but avoid them when they are surely not.
The current implementation can only "peek" head if the segment is a the Root Segment or a Suspense Boundary Segment. In these cases we know there is no trailing text embedding and we can eliminate the separator at the end of the segment if the last emitted element was Text. In normal Segments we cannot peek and thus have to assume there might be a trailing text embedding and we issue a separator defensively. This should be rare in practice as it is assumed most components that will cause segment creation will also emit some markup at the edges.
* [Fizz] Improve separator efficiency when flushing delayed segments
The method by which we get segment markup into the DOM differs depending on when the Segment resolves.
If a Segment resolves before flushing begins for it's parent it will be emitted inline with the parent markup. In these cases separators may be necessary because they are how we clue the browser into breakup up text into distinct nodes that will later match up with what will be hydrated on the client.
If a Segment resolves after flushing has happened a script will be used to patch up the DOM in the client. when this happens if there are any text nodes on the boundary of the patch they won't be "merged" and thus will continue to have distinct representation as Nodes in the DOM. Thus we can avoid doing any separators at the boundaries in these cases.
After applying these changes the only time you will get text separators as follows
* in between serial text nodes that emit at the same time - these are necessary and cannot be eliminated unless we stop relying on the browser to automatically parse the correct text nodes when processing this HTML
* after a final text node in a non-boundary segment that resolves before it's parent has flushed - these are sometimes extraneous, like when the next emitted thing is a non-Text node.
In all other cases text separators should be omitted which means the general byte efficiency of this approach should be pretty good
Before this change, we would sometimes write segments without any content
in them. For example for a Suspense boundary that immediately suspends
we might emit something like:
<div hidden id="123">
<template id="456"></template>
</div>
Where the outer div is just a temporary wrapper and the inner one is a
placeholder for something to be added later.
This serves no purpose.
We should ideally have a heuristic that holds back segments based on byte
size and time. However, this is a straight forward clear win for now.
* I forgot to call onFatalError
I can't figure out how to write a test for this because it only happens
when there is a bug in React itself which would then be fixed if we found
it.
We're also covered by the protection of ReadableStream which doesn't leak
other errors to us.
* Abort requests if the reader cancels
No need to continue computing at this point.
* Abort requests if node streams get destroyed
This is if the downstream cancels is for example.
* Rename Node APIs for Parity with allReady
The "Complete" terminology is a little misleading because not everything
has been written yet. It's just "Ready" to be written now.
onShellReady
onShellError
onAllReady
* 'close' should be enough
* Move onCompleteAll to .allReady Promise
The onCompleteAll callback can sometimes resolve before the promise that
returns the stream which is tough to coordinate. A more idiomatic API
for a one shot event is a Promise.
That way the way you render for SEO or SSG is:
const stream = await renderToReadableStream(...);
await stream.readyAll;
respondWith(stream);
Ideally this should be a sub-class of ReadableStream but we don't yet
compile these to ES6 and they'd had to be to native class to subclass
a native stream.
I have other ideas for overriding the .tee() method in a subclass anyway.
So this is inline with that strategy.
* Reject the Promise on fatal errors
* Remove object-assign polyfill
We really rely on a more modern environment where this is typically
polyfilled anyway and we don't officially support IE with more extensive
polyfilling anyway. So all environments should have the native version
by now.
* Use shared/assign instead of Object.assign in code
This is so that we have one cached local instance in the bundle.
Ideally we should have a compile do this for us but we already follow
this pattern with hasOwnProperty, isArray, Object.is etc.
* Transform Object.assign to now use shared/assign
We need this to use the shared instance when Object.spread is used.
This function was modeled after Node streams where write returns a boolean
whether to keep writing or not. I think we should probably switch this
up and read desired size explicitly in appropriate places.
However, in the meantime, we don't have to return a value where we're
not going to use it. So I split this so that we call writeChunkAndReturn
if we're going to return the boolean.
This should help with the compilation so that they can be inlined.
* tests: add failing test to demonstrate bug in ReadableStream implementation
* Re-add reentrancy avoidance
I removed the equivalency of this in #22446. However, I didn't fully
understand the intended semantics of the spec but I understand this better
now.
The spec is not actually recursive. It won't call pull again inside of a
pull. It might not call it inside startWork neither which the original
issue avoided. However, it will call pull if you enqueue to the controller
without filling up the desired size outside any call.
We could avoid that by returning a Promise from pull that we wait to
resolve until we've performed all our pending tasks. That would be the
more idiomatic solution. That's a bit more involved but since we know
understand it, we can readd the reentrancy hack since we have an easy place
to detect it. If anything, it should probably throw or log here otherwise.
I believe this fixes#22772.
This includes the test from #22889 but should ideally have one for Fizz.
Co-authored-by: Josh Larson <josh.larson@shopify.com>
This indicates that an error has happened before the shell completed and
there's no point in emitting the result of this stream.
This is not quite the same as other fatal errors that can happen even
after streaming as started.
It's also not quite the same as onError before onCompleteShell because
onError can be called for an error inside a Suspense boundary before the
shell completes.
Implement shell error handling in Node SSR fixtures
Instead of hanging indefinitely.
Update Browser Fixture
Expose onErrorShell to the Node build
This API is not Promisified so it's just a separate callback instead.
Promisify the Browser Fizz API
It's now a Promise of a readable stream. The Promise resolves when the
shell completes. If the shell errors, the Promise is rejected.
* [RFC] Add onHydrationError option to hydrateRoot
This is not the final API but I'm pushing it for discussion purposes.
When an error is thrown during hydration, we fallback to client
rendering, without triggering an error boundary. This is good because,
in many cases, the UI will recover and the user won't even notice that
something has gone wrong behind the scenes.
However, we shouldn't recover from these errors silently, because the
underlying cause might be pretty serious. Server-client mismatches are
not supposed to happen, even if UI doesn't break from the users
perspective. Ignoring them could lead to worse problems later. De-opting
from server to client rendering could also be a significant performance
regression, depending on the scope of the UI it affects.
So we need a way to log when hydration errors occur.
This adds a new option for `hydrateRoot` called `onHydrationError`. It's
symmetrical to the server renderer's `onError` option, and serves the
same purpose.
When no option is provided, the default behavior is to schedule a
browser task and rethrow the error. This will trigger the normal browser
behavior for errors, including dispatching an error event. If the app
already has error monitoring, this likely will just work as expected
without additional configuration.
However, we can also expose additional metadata about these errors, like
which Suspense boundaries were affected by the de-opt to client
rendering. (I have not exposed any metadata in this commit; API needs
more design work.)
There are other situations besides hydration where we recover from an
error without surfacing it to the user, or notifying an error boundary.
For example, if an error occurs during a concurrent render, it could be
due to a data race, so we try again synchronously in case that fixes it.
We should probably expose a way to log these types of errors, too. (Also
not implemented in this commit.)
* Log all recoverable errors
This expands the scope of onHydrationError to include all errors that
are not surfaced to the UI (an error boundary). In addition to errors
that occur during hydration, this also includes errors that recoverable
by de-opting to synchronous rendering. Typically (or really, by
definition) these errors are the result of a concurrent data race;
blocking the main thread fixes them by prevents subsequent races.
The logic for de-opting to synchronous rendering already existed. The
only thing that has changed is that we now log the errors instead of
silently proceeding.
The logging API has been renamed from onHydrationError
to onRecoverableError.
* Don't log recoverable errors until commit phase
If the render is interrupted and restarts, we don't want to log the
errors multiple times.
This change only affects errors that are recovered by de-opting to
synchronous rendering; we'll have to do something else for errors
during hydration, since they use a different recovery path.
* Only log hydration error if client render succeeds
Similar to previous step.
When an error occurs during hydration, we only want to log it if falling
back to client rendering _succeeds_. If client rendering fails,
the error will get reported to the nearest error boundary, so there's
no need for a duplicate log.
To implement this, I added a list of errors to the hydration context.
If the Suspense boundary successfully completes, they are added to
the main recoverable errors queue (the one I added in the
previous step.)
* Log error with queueMicrotask instead of Scheduler
If onRecoverableError is not provided, we default to rethrowing the
error in a separate task. Originally, I scheduled the task with
idle priority, but @sebmarkbage made the good point that if there are
multiple errors logs, we want to preserve the original order. So I've
switched it to a microtask. The priority can be lowered in userspace
by scheduling an additional task inside onRecoverableError.
* Only use host config method for default behavior
Redefines the contract of the host config's logRecoverableError method
to be a default implementation for onRecoverableError if a user-provided
one is not provided when the root is created.
* Log with reportError instead of rethrowing
In modern browsers, reportError will dispatch an error event, emulating
an uncaught JavaScript error. We can do this instead of rethrowing
recoverable errors in a microtask, which is nice because it avoids any
subtle ordering issues.
In older browsers and test environments, we'll fall back
to console.error.
* Naming nits
queueRecoverableHydrationErrors -> upgradeHydrationErrorsToRecoverable
* Add useId to dispatcher
* Initial useId implementation
Ids are base 32 strings whose binary representation corresponds to the
position of a node in a tree.
Every time the tree forks into multiple children, we add additional bits
to the left of the sequence that represent the position of the child
within the current level of children.
00101 00010001011010101
╰─┬─╯ ╰───────┬───────╯
Fork 5 of 20 Parent id
The leading 0s are important. In the above example, you only need 3 bits
to represent slot 5. However, you need 5 bits to represent all the forks
at the current level, so we must account for the empty bits at the end.
For this same reason, slots are 1-indexed instead of 0-indexed.
Otherwise, the zeroth id at a level would be indistinguishable from
its parent.
If a node has only one child, and does not materialize an id (i.e. does
not contain a useId hook), then we don't need to allocate any space in
the sequence. It's treated as a transparent indirection. For example,
these two trees produce the same ids:
<> <>
<Indirection> <A />
<A /> <B />
</Indirection> </>
<B />
</>
However, we cannot skip any materializes an id. Otherwise, a parent id
that does not fork would be indistinguishable from its child id. For
example, this tree does not fork, but the parent and child must have
different ids.
<Parent>
<Child />
</Parent>
To handle this scenario, every time we materialize an id, we allocate a
new level with a single slot. You can think of this as a fork with only
one prong, or an array of children with length 1.
It's possible for the the size of the sequence to exceed 32 bits, the
max size for bitwise operations. When this happens, we make more room by
converting the right part of the id to a string and storing it in an
overflow variable. We use a base 32 string representation, because 32 is
the largest power of 2 that is supported by toString(). We want the base
to be large so that the resulting ids are compact, and we want the base
to be a power of 2 because every log2(base) bits corresponds to a single
character, i.e. every log2(32) = 5 bits. That means we can lop bits off
the end 5 at a time without affecting the final result.
* Incremental hydration
Stores the tree context on the dehydrated Suspense boundary's state
object so it resume where it left off.
* Add useId to react-debug-tools
* Add selective hydration test
Demonstrates that selective hydration works and ids are preserved even
after subsequent client updates.
* Add option to inject bootstrap scripts
These are emitted right after the shell as flushed.
* Update ssr fixtures to use bootstrapScripts instead of manual script tag
* Add option to FB renderer too
* Hoist error codes import to module scope
When this code was written, the error codes map (`codes.json`) was
created on-the-fly, so we had to lazily require from inside the visitor.
Because `codes.json` is now checked into source, we can import it a
single time in module scope.
* Minify error constructors in production
We use a script to minify our error messages in production. Each message
is assigned an error code, defined in `scripts/error-codes/codes.json`.
Then our build script replaces the messages with a link to our
error decoder page, e.g. https://reactjs.org/docs/error-decoder.html/?invariant=92
This enables us to write helpful error messages without increasing the
bundle size.
Right now, the script only works for `invariant` calls. It does not work
if you throw an Error object. This is an old Facebookism that we don't
really need, other than the fact that our error minification script
relies on it.
So, I've updated the script to minify error constructors, too:
Input:
Error(`A ${adj} message that contains ${noun}`);
Output:
Error(formatProdErrorMessage(ERR_CODE, adj, noun));
It only works for constructors that are literally named Error, though we
could add support for other names, too.
As a next step, I will add a lint rule to enforce that errors written
this way must have a corresponding error code.
* Minify "no fallback UI specified" error in prod
This error message wasn't being minified because it doesn't use
invariant. The reason it didn't use invariant is because this particular
error is created without begin thrown — it doesn't need to be thrown
because it's located inside the error handling part of the runtime.
Now that the error minification script supports Error constructors, we
can minify it by assigning it a production error code in
`scripts/error-codes/codes.json`.
To support the use of Error constructors more generally, I will add a
lint rule that enforces each message has a corresponding error code.
* Lint rule to detect unminified errors
Adds a lint rule that detects when an Error constructor is used without
a corresponding production error code.
We already have this for `invariant`, but not for regular errors, i.e.
`throw new Error(msg)`. There's also nothing that enforces the use of
`invariant` besides convention.
There are some packages where we don't care to minify errors. These are
packages that run in environments where bundle size is not a concern,
like react-pg. I added an override in the ESLint config to ignore these.
* Temporarily add invariant codemod script
I'm adding this codemod to the repo temporarily, but I'll revert it
in the same PR. That way we don't have to check it in but it's still
accessible (via the PR) if we need it later.
* [Automated] Codemod invariant -> Error
This commit contains only automated changes:
npx jscodeshift -t scripts/codemod-invariant.js packages --ignore-pattern="node_modules/**/*"
yarn linc --fix
yarn prettier
I will do any manual touch ups in separate commits so they're easier
to review.
* Remove temporary codemod script
This reverts the codemod script and ESLint config I added temporarily
in order to perform the invariant codemod.
* Manual touch ups
A few manual changes I made after the codemod ran.
* Enable error code transform per package
Currently we're not consistent about which packages should have their
errors minified in production and which ones should.
This adds a field to the bundle configuration to control whether to
apply the transform. We should decide what the criteria is going
forward. I think it's probably a good idea to minify any package that
gets sent over the network. So yes to modules that run in the browser,
and no to modules that run on the server and during development only.
* Pass in Destination lazily in startFlowing instead of createRequest
* Delay fatal errors until we have a destination to forward them to
* Flow can now be inferred by whether there's a destination set
We can drop the destination when we're not flowing since there's nothing to
write to.
Fatal errors now close once flowing starts back up again.
* Defer fatal errors in Flight too
* Remove reentrant check from Fizz/Flight
* Make startFlowing explicit in Flight
This is already an explicit call in Fizz. This moves flowing to be explicit.
That way we can avoid calling it in start() for web streams and therefore
avoid the reentrant call.
* Add regression test
This test doesn't actually error due to the streams polyfill not behaving
like Chrome but rather according to spec.
* Update the Web Streams polyfill
Not that we need this but just in case there are differences that are fixed.