This allows us to show props in React DevTools when inspecting a Server
Component.
I currently drastically limit the object depth that's serialized since
this is very implicit and you can have heavy objects on the server.
We previously was using the general outlineModel to outline
ReactComponentInfo but we weren't consistently using it everywhere which
could cause some bugs with the parsing when it got deduped on the
client. It also lead to the weird feature detect of `isReactComponent`.
It also meant that this serialization was using the plain serialization
instead of `renderConsoleValue` which means we couldn't safely serialize
arbitrary debug info that isn't serializable there.
So the main change here is to call `outlineComponentInfo` and have that
always write every "Server Component" instance as outlined and in a way
that lets its props be serialized using `renderConsoleValue`.
<img width="1150" alt="Screenshot 2024-10-01 at 1 25 05 AM"
src="https://github.com/user-attachments/assets/f6e7811d-51a3-46b9-bbe0-1b8276849ed4">
The idea is that the RSC protocol is a superset of Structured Clone.
#25687 One exception that we left out was serializing Error objects as
values. We serialize "throws" or "rejections" as Error (regardless of
their type) but not Error values.
This fixes that by serializing `Error` objects. We don't include digest
in this case since we don't call `onError` and it's not really expected
that you'd log it on the server with some way to look it up.
In general this is not super useful outside throws. Especially since we
hide their values in prod. However, there is one case where it is quite
useful. When you replay console logs in DEV you might often log an Error
object within the scope of a Server Component. E.g. the default RSC
error handling just console.error and error object.
Before this would just be an empty object due to our lax console log
serialization:
<img width="1355" alt="Screenshot 2024-09-30 at 2 24 03 PM"
src="https://github.com/user-attachments/assets/694b3fd3-f95f-4863-9321-bcea3f5c5db4">
After:
<img width="1348" alt="Screenshot 2024-09-30 at 2 36 48 PM"
src="https://github.com/user-attachments/assets/834b129d-220d-43a2-a2f4-2eb06921747d">
TODO for a follow up: Flight Reply direction. This direction doesn't
actually serialize thrown errors because they always reject the
serialization.
This is a follow-up from #30528 to not only handle props (the critical
change), but also the owner ~and stack~ of a referenced element.
~Handling stacks here is rather academic because the Flight Server
currently does not deduplicate owner stacks. And if they are really
identical, we should probably just dedupe the whole element.~ EDIT:
Removed from the PR.
Handling owner objects on the other hand is an actual requirement as
reported in https://github.com/vercel/next.js/issues/69545. This problem
only affects the stable release channel, as the absence of owner stacks
allows for the specific kind of shared owner deduping as demonstrated in
the unit test.
In a past update we made render and prerender have different work
scheduling behavior because these methods are meant to be used in
differeent environments with different performance tradeoffs in mind.
For instance to prioritize streaming we want to allow as much IO to
complete before triggering a round of work because we want to flush as
few intermediate UI states. With Prerendering there will never be any
intermediate UI states so we can more aggressively render tasks as they
complete.
One thing we've found is that even during render we should ideally kick
off work immediately. This update normalizes the intitial work for
render and prerender to start in a microtask. Choosing microtask over
sync is somewhat arbitrary but there really isn't a reason to make them
different between render/prerender so for now we'll unify them and keep
it as a microtask for now.
This change also updates pinging behavior. If the request is still in
the initial task that spawned it then pings will schedule on the
microtask queue. This allows immediately available async APIs to resolve
right away. The concern with doing this for normal pings is that it
might crowd out IO events but since this is the initial task there would
be IO to already be scheduled.
When the environment name changes for a chunk we issue a new debug chunk
which updates the environment name. This chunk was not beign included in
the pendingChunks count so the count was off when flushing
This means that the owner of a Component rendered on the remote server
becomes the Component on this server.
Ideally we'd support this for the Client side too. In particular Fiber
but currently ReactComponentInfo's owner is typed as only supporting
other ReactComponentInfo and it's a bigger lift to support that.
In https://github.com/facebook/react/pull/29491 I updated the work
scheduler for Flight to use microtasks to perform work when something
pings. This is useful but it does have some downsides in terms of our
ability to do task prioritization. Additionally the initial work is not
instantiated using a microtask which is inconsistent with how pings
work.
In this change I update the scheduling logic to use microtasks
consistently for prerenders and use regular tasks for renders both for
the initial work and pings.
When aborting a prerender we should leave references unfulfilled, not
share a common unfullfilled reference. functionally today this doesn't
matter because we don't have resuming but the semantic is that the row
was not available when the abort happened and in a resume the row should
fill in. But by pointing each task to a common unfulfilled chunk we lose
the ability for these references to resolves to distinct values on
resume.
stacked on: #30731
We've refined the model of halting a prerender. Now when you abort
during a prerender we simply omit the rows that would complete the
flight render. This is analagous to prerendering in Fizz where you must
resume the prerender to actually result in errors propagating in the
postponed holes. We don't have a resume yet for flight and it's not
entirely clear how that will work however the key insight here is that
deciding whether the never resolving rows are an error or not should
really be done on the consuming side rather than in the producer.
This PR also reintroduces the logs for the abort error/postpone when
prerendering which will give you some indication that something wasn't
finished when the prerender was aborted.
Stacked on #30731.
When logging a Promise we emit it as an infinite promise instead of
blocking the replay on it.
This models that as a halted row instead. No need for this special case.
I unflag the receiving side since now it's used to replace a feature
that's already unflagged so it's used.
using infinitely suspending promises isn't right because this will parse
as a promise which is only appropriate if the value we're halting at is
a promise. Instead we need to have a special marker type that says this
reference will never resolve. Additionally flight client needs to not
error any halted references when the stream closes because they will
otherwise appear as an error
addresses:
https://github.com/facebook/react/pull/30705#discussion_r1720479974
This uses a similar technique to what we use to generate fake stack
frames for server components. This generates an eval:ed wrapper function
around the Server Reference proxy we create on the client. This wrapper
function gets the original `name` of the action on the server and I also
add a source map if `findSourceMapURL` is defined that points back to
the source of the server function.
For `"use server"` on the server, there's no new API. It just uses the
callsite of `registerServerReference()` on the Server. We can infer the
function name from the actual function on the server and we already have
the `findSourceMapURL` on the client receiving it.
For `"use server"` imported from the client, there's two new options
added to `createServerReference()` (in addition to the optional
[`encodeFormAction`](#27563)). These are only used in DEV mode. The
[`findSourceMapURL`](#29708) option is the same one added in #29708. We
need to pass this these references aren't created in the context of any
specific request but globally. The other weird thing about this case is
that this is actually a case where the compiled environment is the
client so any source maps are the same as for the client layer, so the
environment name here is just `"Client"`.
```diff
createServerReference(
id: string,
callServer: CallServerCallback,
encodeFormAction?: EncodeFormActionCallback,
+ findSourceMapURL?: FindSourceMapURLCallback, // DEV-only
+ functionName?: string, // DEV-only
)
```
The key is that we use the location of the
`registerServerReference()`/`createServerReference()` call as the
location of the function. A compiler can either emit those at the same
locations as the original functions or use source maps to have those
segments refer to the original location of the function (or in the case
of a re-export the original location of the re-export is also a fine
approximate). The compiled output must call these directly without a
wrapper function because the wrapper adds a stack frame. I decided
against complicated and fragile dev-only options to skip n number of
frames that would just end up in prod code. The implementation just
skips one frame - our own. Otherwise it'll just point all source mapping
to the wrapper.
We don't have a `"use server"` imported from the client implementation
in the reference implementation/fixture so it's a bit tricky to test
that. In the case of CJS on the server, we just use a runtime instead of
compiler so it's tricky to source map those appropriately. We can
implement it for ESM on the server which is the main thing we're testing
in the fixture. It's easier in a real implementation where all the
compilation is just one pass. It's a little tricky since we have to
parse and append to other source maps but I'd like to do that as a
follow up. Or maybe that's just an exercise for the reader.
You can right click an action and click "Go to Definition".
<img width="1323" alt="Screenshot 2024-08-17 at 6 04 27 PM"
src="https://github.com/user-attachments/assets/94d379b3-8871-4671-a20d-cbf9cfbc2c6e">
For now they simply don't point to the right place but you can still
jump to the right file in the fixture:
<img width="1512" alt="Screenshot 2024-08-17 at 5 58 40 PM"
src="https://github.com/user-attachments/assets/1ea5d665-e25a-44ca-9515-481dd3c5c2fe">
In Firefox/Safari given that the location doesn't exist in the source
map yet, the browser refuses to open the file. Where as Chrome does
nearest (last) line.
enableHalt turns on a mode for flight prerenders where aborts are
treated like infinitely stalled outcomes while still completing the
prerender. For regular tasks we simply serialize the slot as a promise
that never settles. For ReadableStream, Blob, and Async Iterators we
just never advance the serialization so they remain unfinished when
consumed on the client.
When enableHalt is turned on aborts of prerenders will halt rather than
error. The abort reason is forwarded to the upstream produces of the
aforementioned async iterators, blobs, and ReadableStreams. In the
future if we expose a signal that you can consume from within a render
to cancel additional work the abort reason will also be forwarded there
Prerendering in flight is similar to prerendering in Fizz. Instead of
receiving a result (the stream) immediately a promise is returned which
resolves to the stream when the prerender is complete. The promise will
reject if the flight render fatally errors otherwise it will resolve
when the render is completed or is aborted.
Supports showing the key in DevTools on the Server Component that the
key was applied to. We can also use this to reconcile to preserve
instance equality when they're reordered.
One thing that's a bit weird about this is that if you provide an
explicit key on a Server Component that alone doesn't have any
semantics. It's because we pass the key down and let the nearest child
inherit the key or get prefixed by the key.
So you might see the same key as a prefix on the child of the Server
Component too which might be a bit confusing. We could remove the prefix
from children but that might also be a bit confusing if they collide.
The div in this case doesn't have a key explicitly specified. It gets it
from the Server Component parent.
<img width="1107" alt="Screenshot 2024-08-14 at 10 06 36 PM"
src="https://github.com/user-attachments/assets/cfc517cc-e737-44c3-a1be-050049267ee2">
Overall keys get a bit confusing when you apply filter. Especially since
it's so common to actually apply the key on a Host Instance. So you
often don't see the key.
When synchronously aborting in a non-async Function Component if you
throw after aborting the task would error rather than abort because
React never observed the AbortSignal.
Using a sigil to throw after aborting during render isn't effective b/c
the user code itself could throw so insteead we just read the request
status. This is ok b/c we don't expect any tasks to still be pending
after the currently running task finishes.
However I found one instance where that wasn't true related to
serializing thenables which I've fixed so we may find other cases. If we
do, though it's almost certainly a bug in our task bookkeeping so we
should just fix it if it comes up.
I also updated `abort` to not set the status to ABORTING unless the
status was OPEN. we don't want to ever leave CLOSED or CLOSING status
When I implemented the ability to abort synchronoulsy in flight I made
it possible for erroring async server components to cause an unhandled
rejection error. In the current implementation if you abort during the
synchronous phase of a Function Component and then throw an error in the
synchronous phase React will not attach any promise handlers because it
short circuits the thenable treatment and throws an AbortSigil instead.
This change updates the rendering logic to ignore the rejecting
component.
There's a special case that happens when we replay logs on the client
because this doesn't happen within the context of any particular
rendered component. So we need to reimplement things that would normally
be handled by a full client like Fiber.
The implementation of `getOwnerStackByComponentInfoInDev` is the
simplest version since it doesn't have any client components in it so I
move it to `shared/`. It's only used by Flight but both `react-server/`
and `react-client/` packages. The ReactComponentInfo type is also more
generic than just Flight anyway.
In a follow up I still need to implement this in React DevTools when
native tasks are not available so that it appends it to the console.
This way you can use the environment to know where to look for the
source map in case you have multiple server environments.
This becomes part of the public protocol since it's part of what you'll
parse out of the `rsc://React/` prefixed URLs inside of
`captureOwnerStack`.
This lets you customize the filter, for example allowing node_modules or
filter out additional functions that you don't want to include when
sending the stack to the client.
Notably this doesn't filter out Server Components out of the parent
stack. Those are just like a view of the tree by name. Not virtual stack
frames.
We still filter them before passing from server to client in Flight
Server but when presenting a native stack, we don't need to filter them.
That's left to ignore listing in the presentation.
The stacks are pretty clean regardless thanks to the bottom stack
frames.
We can also unify the owner stack formatters into one shared module
since Fizz/Flight/Fiber all do the same thing. DevTools currently does
the same thing but is forked so it can support multiple versions.
Stacked on #30410.
If we've parsed another RSC stream on the server from a different RSC
server, while using `findSourceMapURL`, the Flight Client ends up adding
a `rsc://React/` prefix and a numeric suffix to the URL. It's a virtual
file that represents the virtual eval:ed frame in that environment.
If we then see that same stack again, we'd serialize a virtual frame to
another virtual. Meaning `findSourceMapURL` on the client would see the
virtual frame of the intermediate server and it would have to strip it
to figure out what source map to use.
This PR strips it in the Server if we see a virtual frame. At each new
client it always refers to the original stack.
We don't have to do this. We could leave it to each `findSourceMapURL`
implementation and `captureOwnerStack` parser to recursively strip each
layer. It could maybe be useful to have the environment name in the
virtual frame to know which server to look for the source map in.
Stacked on #30401.
Previously we were transferring the original V8 stack trace string to
the client and then parsing it there. However, really the server is the
one that knows what format it is and it should be able to vary by server
environment.
We also don't use the raw string anymore (at least not in
enableOwnerStacks). We always create the native Error stacks.
The string also made it unclear which environment it is and it was
tempting to just use it as is.
Instead I parse it on the server and make it a structured stack in the
transfer format. It also makes it clear that it needs to be formatted in
the current environment before presented.
Stacked on https://github.com/facebook/react/pull/30400 and
https://github.com/facebook/react/pull/30369
Previously we were using fake evals to recreate a stack for console
replaying and thrown errors. However, for owner stacks we just used the
raw string that came from the server.
This means that the format of the owner stack could include different
formats. Like Spidermonkey format for the client components and V8 for
the server components. This means that this stack can't be parsed
natively by the browser like when printing them as error like in
https://github.com/facebook/react/pull/30289. Additionally, since
there's no source file registered with that name and no source mapping
url, it can't be source mapped.
Before:
<img width="1329" alt="before-firefox"
src="https://github.com/user-attachments/assets/cbe03f9c-96ac-48fb-b58f-f3a224a774f4">
Instead, we need to create a fake stack like we do for the other things.
That way when it's printed as an Error it gets source mapped. It also
means that the format is consistently in the native format of the
current browser.
After:
<img width="753" alt="after-firefox"
src="https://github.com/user-attachments/assets/b436f1f5-ca37-4203-b29f-df9828c9fad3">
So this is nice because you can just take the result from
`captureOwnerStack()` and append it to an `Error` stack and print it
natively. E.g. this is what React DevTools will do.
If you want to parse and present it yourself though it's a bit awkward
though. The `captureOwnerStack()` API now includes a bunch of
`rsc://React/` URLs. These don't really have any direct connection to
the source map. Only the browser knows this connection from the eval.
You basically have to strip the prefix and then manually pass the
remainder to your own `findSourceMapURL`.
Another awkward part is that since Safari doesn't support eval sourceURL
exposed into `error.stack` - it means that `captureOwnerStack()` get an
empty location for server components since the fake eval doesn't work
there. That's not a big deal since these stacks are already broken even
for client modules for many because the `eval-source-map` strategy in
Webpack doesn't work in Safari for this same reason.
A lot of this refactoring is just clarifying that there's three kind of
ReactComponentInfo fields:
- `stack` - The raw stack as described on the original server.
- `debugStack` - The Error object containing the stack as represented in
the current client as fake evals.
- `debugTask` - The same thing as `debugStack` but described in terms of
a native `console.createTask`.
Ideally we wouldn't need to filter out React internals and it'd just be
covered by ignore listing by any downstream tool. E.g. a framework using
captureOwnerStack could have its own ignore listing. Printed owner
stacks would get browser source map ignore-listing. React DevTools could
have its own ignore list for internals. However, it's nice to be able to
provide nice owner stacks without a bunch of noise by default.
Especially on the server since they have to be serialized.
We currently call each function that calls into user space and track its
stack frame. However, this needs code for checking each one and doesn't
let us work across bundles.
Instead, we can name each of these frame something predictable by giving
the function a name.
Unfortunately, it's a common practice to rename functions or inline them
in compilers. Even if we didn't, others downstream from us or a dev-mode
minifier could. I use this `.bind()` trick to avoid minifying these
functions and ensure they get a unique name added to them in all
browsers. It's not 100% fool proof since a smart enough compiler could
also discover that the `this` value is not used and strip out the
function and then inline it but nobody does this yet at least.
This lets us find the bottom stack easily from stack traces just by
looking for the name.
React transpiles some of its own `console.error` calls into a helper
that appends component stacks to those calls. However, this doesn't
cover user space `console.error` calls - which includes React helpers
that React has moved into third parties like createClass and prop-types.
The idea is that any user space component can add a warning just like
React can which is why React DevTools adds them too if they don't
already exist. Having them appended in both places is tricky because now
you have to know whether to remove them from React's logs.
Similarly it's often common for server-side frameworks to forget to
cover the `console.error` logs from other sources since React DevTools
isn't active there. However, it's also annoying to get component stacks
clogging the terminal - depending on where the log came from.
In the future `console.createTask()` will cover this use case natively
and when available we don't append them at all.
The new strategy relies on either:
- React DevTools existing to add them to React logs as well as third
parties.
- `console.createTask` being supported and surfaced.
- A third party framework showing the component stack either in an Error
Dialog or appended to terminal output.
For a third party to be able to implement this they need to be able to
get the component stack. To get the component stack from within a
`console.error` call you need to use the `React.captureOwnerStack()`
helper which is only available in `enableOwnerStacks` flag. However,
it's possible to polyfill with parent stacks using internals as a stop
gap. There's a question of whether React 19 should just go out with
`enableOwnerStacks` to expose this but regardless I think it's best it
doesn't include component stacks from the runtime for consistency.
In practice it's not really a regression though because typically either
of the other options exists and error dialogs don't implement
`console.error` overrides anyway yet. SSR terminals might miss them but
they'd only have them in DEV warnings to begin with an a subset of React
warnings. Typically those are either going to happen on the client
anyway or replayed.
Our tests are written to assert that component stacks work in various
scenarios all over the place. To ensure that this keeps working I
implement a "polyfill" that is similar to that expected a server
framework might do - in `assertConsoleErrorDev` and `toErrorDev`.
This PR doesn't yet change www or RN since they have their own forks of
consoleWithStackDev for now.
This marker can then be emitted as a getter. When this object gets
accessed we use a special error to let the user know what is going on.
<img width="1350" alt="Screenshot 2024-07-08 at 10 13 46 PM"
src="https://github.com/facebook/react/assets/63648/e3eb698f-e02d-4394-a051-ba9ac3236480">
When you click the `...`:
<img width="1357" alt="Screenshot 2024-07-08 at 10 13 56 PM"
src="https://github.com/facebook/react/assets/63648/4b8ce1cf-d762-49a4-97b9-aeeb1aa8722c">
I also increased the object limit in console logs. It was arbitrarily
set very low before.
These limits are per message. So if you have a loop of many logs it can
quickly add up a lot of strain on the server memory and the client. This
is trying to find some tradeoff. Unfortunately we don't really do much
deduping in these logs so with cyclic objects it ends up maximizing the
limit and then siblings aren't logged.
Ideally we should be able to lazy load them but that requires a lot of
plumbing to wire up so if we can avoid it we should try to. If we want
to that though one idea is to use the getter to do a sync XHR to load
more data but the server needs to retain the objects in memory for an
unknown amount of time. The client could maybe send a signal to retain
them until a weakref clean up but even then it kind of needs a heartbeat
to let the server know the client is still alive. That's a lot of
complexity. There's probably more we can do to optimize deduping and
other parts of the protocol to make it possible to have even higher
limits.
We already added this for other thrown errors, not just console.errors.
There's a production form of this. We just missed adding this context.
Mainly the best context is the line number though which comes from owner
stacks.
Stacked on #30197.
This is similar to #30182 and #21610 in Fizz.
Track the current owner/stack/task on the task. This tracks it for
attribution when serializing child properties.
This lets us provide the right owner and createTask when we
console.error from inside Flight itself. This also affects the way we
print those logs on the client since we need the owner and stack. Now
console.errors that originate on the server gets the right stack on the
client:
<img width="760" alt="Screenshot 2024-07-03 at 6 03 13 PM"
src="https://github.com/facebook/react/assets/63648/913300f8-f364-4e66-a19d-362e8d776c64">
Unfortunately, because we don't track the stack we never pop it so it'll
keep tracking for serializing sibling properties. We rely on "children"
typically being the last property in the common case anyway. However,
this can lead to wrong attribution in some cases where the invalid
property is a next property (without a wrapping element) and there's a
previous element that doesn't. E.g. `<ClientComponent title={<div />}
invalid={nonSerializable} />` would use the div as the attribution
instead of ClientComponent.
I also wrap all of our own console.error, onError and onPostpone in the
context of the parent component. It's annoying to have to remember to do
this though.
We could always wrap the whole rendering in such as context but it would
add more overhead since this rarely actually happens. It might make
sense to track the whole current task instead to lower the overhead.
That's what we do in Fizz. We'd still have to remember to restore the
debug task though. I realize now Fizz doesn't do that neither so the
debug task isn't wrapping the console.errors that Fizz itself logs.
There's something off about that Flight and Fizz implementations don't
perfectly align.
Wire up owner stacks in Flight to the shared internals. This exposes it
to `captureOwnerStack()`.
In this case we install it permanently as we only allow one RSC renderer
which then supports async contexts. Same thing we do for owner.
This also ends up adding it to errors logged by React through
`consoleWithStackDev`. The plan is to eventually remove that but this is
inline with what we do in Fizz and Fiber already.
However, at the same time we've instrumented the console so we need to
strip them back out before sending to the client. This lets the client
control whether to add the stack back in or allowing
`console.createTask` to control it.
This is another reason we shouldn't append them from React but for now
we hack it by removing them after the fact.
We use this to encode the binary length of a large string without
escaping it. This is really kind of optional though. This lets a Server
that can't encode strings but just pass them along able to emit RSC -
albeit a less optimal format.
The only build we have that does that today is react-html but the FB
version of Flight had a similar constraint.
It's still possible to support binary data as long as
byteLengthOfBinaryChunk is implemented which doesn't require a text
encoder. Many streams (including Node streams) support binary OR string
chunks.
This is all behind the `enableOwnerStacks` flag.
This is a follow up to #29088. In that I moved type validation into the
renderer since that's the one that knows what types are allowed.
However, I only removed it from `React.createElement` and not the JSX
which was an oversight.
However, I also noticed that for invalid types we don't have the right
stack trace for throws because we're not yet inside the JSX element that
itself is invalid. We should use its stack for the stack trace. That's
the reason it's enough to just use the throw now because we can get a
good stack trace from the owner stack. This is fixed by creating a fake
Throw Fiber that gets assigned the right stack.
Additionally, I noticed that for certain invalid types like the most
common one `undefined` we error in Flight so a missing import in RSC
leads to a generic error. Instead of erroring on the Flight side we
should just let anything that's not a Server Component through to the
client and then let the Client renderer determine whether it's a valid
type or not. Since we now have owner stacks through the server too, this
will still be able to provide a good stack trace on the client that
points to the server in that case.
<img width="571" alt="Screenshot 2024-06-25 at 6 46 35 PM"
src="https://github.com/facebook/react/assets/63648/6812c24f-e274-4e09-b4de-21deda9ea1d4">
To get the best stack you have to expand the little icon and the regular
stack is noisy [due to this Chrome
bug](https://issues.chromium.org/issues/345248263) which makes it a
little harder to find but once that's fixed it might be easier.
When we replay logs we badge them with e.g. `[Server]`. That way it's
easy to identify that the source of the log actually happened on the
Server (RSC). However, when we threw an error we didn't have any such
thing. The error was rethrown on the client and then handled just like
any other client error.
This transfers the `environmentName` in DEV to our restored Error
"sub-class" (conceptually) along with `digest`. That way you can read
`error.environmentName` to print this in your own UI.
I also updated our default for `onCaughtError` (and `onError` in Fizz)
to use the `printToConsole` helper that the Flight Client uses to log it
with the badge format. So by default you get the same experience as
console.error for caught errors:
<img width="810" alt="Screenshot 2024-06-10 at 9 25 12 PM"
src="https://github.com/facebook/react/assets/63648/8490fedc-09f6-4286-9332-fbe6b0faa2d3">
<img width="815" alt="Screenshot 2024-06-10 at 9 39 30 PM"
src="https://github.com/facebook/react/assets/63648/bdcfc554-504a-4b1d-82bf-b717e74975ac">
Unfortunately I can't do the same thing for `onUncaughtError` nor
`onRecoverableError` because they use `reportError` which doesn't have
custom formatting (unless we also prevented default on window.onerror).
However maybe that's ok because 1) you should always have an error
boundary 2) it's not likely that an RSC error can actually recover
because it's not going to be rendered again so shouldn't really happen
outside some parent conditionally rendering maybe.
The other problem with this approach is that the default is no longer
trivial - so reimplementing the default in user space is trickier and
ideally we shouldn't expose our default to be called.
Need to tighten up this a bit.
react-dom isomorphic currently depends on react-reconciler which is
mostly DCE but it's pulled in which makes it hard to make other bundling
changes.
ReactFlightServer can have a hard dependency on the module that imports
its internals since even if other internals are aliased it still always
needs the server one.
This lets the environment name vary within a request by the context a
component, log or error being executed in.
A potentially different API would be something like
`setEnvironmentName()` but we'd have to extend the `ReadableStream` or
something to do that like we do for `.allReady`. As a function though it
has some expansion possibilities, e.g. we could potentially also pass
some information to it for context about what is being asked for.
If it changes before completing a task, we also emit the change so that
we have the debug info for what the environment was before entering a
component and what it was after completing it.
Stacked on #29807.
This lets the nearest Suspense/Error Boundary handle it even if that
boundary is defined by the model itself.
It also ensures that when we have an error during serialization of
properties, those can be associated with the nearest JSX element and
since we have a stack/owner for that element we can use it to point to
the source code of that line. We can't track the source of any nested
arbitrary objects deeper inside since objects don’t track their stacks
but close enough. Ideally we have the property path but we don’t have
that right now. We have a partial in the message itself.
<img width="813" alt="Screenshot 2024-06-09 at 10 08 27 PM"
src="https://github.com/facebook/react/assets/63648/917fbe0c-053c-4204-93db-d68a66e3e874">
Note: The component name (Counter) is lost in the first message because
we don't print it in the Task. We use `"use client"` instead because we
expect the next stack frame to have the name. We also don't include it
in the actual error message because the Server doesn't know the
component name yet. Ideally Client References should be able to have a
name. If the nearest is a Host Component then we do use the name though.
However, it's not actually inside that Component that the error happens
it's in App and that points to the right line number.
An interesting case is that if something that's actually going to be
consumed by the props to a Suspense/Error Boundary or the Client
Component that wraps them fails, then it can't be handled by the
boundary. However, a counter intuitive case might be when that's on the
`children` props. E.g.
`<ErrorBoundary>{clientReferenceOrInvalidSerialization}</ErrorBoundary>`.
This value can be inspected by the boundary so it's not safe to pass it
so if it's errored it is not caught.
## Implementation
The first insight is that this is best solved on the Client rather than
in the Server because that way it also covers Client References that end
up erroring.
The key insight is that while we don't have a true stack when using
`JSON.parse` and therefore no begin/complete we can still infer these
phases for Elements because the first child of an Element is always
`'$'` which is also a leaf. In depth first that's our begin phase. When
the Element itself completes, we have the complete phase. Anything in
between is within the Element.
Using this idea I was able to refactor the blocking tracking mechanism
to stash the blocked information on `initializingHandler` and then on
the way up do we let whatever is nearest handle it - whether that's an
Element or the root Chunk. It's kind of like an Algebraic Effect.
cc @unstubbable This is something you might want to deep dive into to
find more edge cases. I'm sure I've missed something.
---------
Co-authored-by: eps1lon <sebastian.silbermann@vercel.com>
Stacked on #29807.
Conceptually the error's owner/task should ideally be captured when the
Error constructor is called but neither `console.createTask` does this,
nor do we override `Error` to capture our `owner`. So instead, we use
the nearest parent as the owner/task of the error. This is usually the
same thing when it's thrown from the same async component but not if you
await a promise started from a different component/task.
Before this stack the "owner" and "task" of a Lazy that errors was the
nearest Fiber but if the thing erroring is a Server Component, we need
to get that as the owner from the inner most part of debugInfo.
To get the Task for that Server Component, we need to expose it on the
ReactComponentInfo object. Unfortunately that makes the object not
serializable so we need to special case this to exclude it from
serialization. It gets restored again on the client.
Before (Shell):
<img width="813" alt="Screenshot 2024-06-06 at 5 16 20 PM"
src="https://github.com/facebook/react/assets/63648/7da2d4c9-539b-494e-ba63-1abdc58ff13c">
After (App):
<img width="811" alt="Screenshot 2024-06-08 at 12 29 23 AM"
src="https://github.com/facebook/react/assets/63648/dbf40bd7-c24d-4200-81a6-5018bef55f6d">
We know from Fiber that inline objects with more than 16 properties in
V8 turn into dictionaries instead of optimized objects. The trick is to
use a constructor instead of an inline object literal. I don't actually
know if that's still the case or not. I haven't benchmarked/tested the
output. Better safe than sorry.
It's unfortunate that this can have a negative effect for Hermes and JSC
but it's not as bad as it is for V8 because they don't deopt into
dictionaries. The time to construct these objects isn't a concern - the
time to access them frequently is.
We have to beware the Task objects in Fizz. Those are currently on 16
fields exactly so we shouldn't add anymore ideally.
We should ideally have a lint rule against object literals with more
than 16 fields on them. It might not help since sometimes the fields are
conditional.
Stacked on #29491
Previously if you aborted during a render the currently rendering task
would itself be aborted which will cause the entire model to be replaced
by the aborted error rather than just the slot currently being rendered.
This change updates the abort logic to mark currently rendering tasks as
aborted but allowing the current render to emit a partially serialized
model with an error reference in place of the current model.
The intent is to support aborting from rendering synchronously, in
microtasks (after an await or in a .then) and in lazy initializers. We
don't specifically support aborting from things like proxies that might
be triggered during serialization of props
Stacked on #29551
Flight pings much more often than Fizz because async function components
will always take at least a microtask to resolve . Rather than
scheduling this work as a new macrotask Flight now schedules pings in a
microtask. This allows more microtasks to ping before actually doing a
work flush but doesn't force the vm to spin up a new task which is quite
common give n the nature of Server Components
While most builds of Flight and Fizz schedule work in new tasks some do
execute work synchronously. While this is necessary for legacy APIs like
renderToString for modern APIs there really isn't a great reason to do
this synchronously.
We could schedule works as microtasks but we actually want to yield so
the runtime can run events and other things that will unblock additional
work before starting the next work loop.
This change updates all non-legacy uses to be async using the best
availalble macrotask scheduler.
Browser now uses postMessage
Bun uses setTimeout because while it also supports setImmediate the
scheduling is not as eager as the same API in node
the FB build also uses setTimeout
This change required a number of changes to tests which were utilizing
the sync nature of work in the Browser builds to avoid having to manage
timers and tasks. I added a patch to install MessageChannel which is
required by the browser builds and made this patched version integrate
with the Scheduler mock. This way we can effectively use `act` to flush
flight and fizz work similar to how we do this on the client.
This lets us ensure that we use the original V8 format and it lets us
skip source mapping. Source mapping every call can be expensive since we
do it eagerly for server components even if an error doesn't happen.
In the case of an error being thrown we don't actually always do this in
practice because if a try/catch before us touches it or if something in
onError touches it (which the default console.error does), it has
already been initialized. So we have to be resilient to thrown errors
having other formats.
These are not as perf sensitive since something actually threw but if
you want better perf in these cases, you can simply do something like
`onError(error) { console.error(error.message) }` instead.
The server has to be aware whether it's looking up original or compiled
output. I currently use the file:// check to determine if it's referring
to a source mapped file or compiled file in the fixture. A bundled app
can more easily check if it's a bundle or not.
Normally we take the renderClientElement path but this is an internal
fast path.
No tests because we don't run tests with console.createTask (which is
not easy since we test component stacks).
Ideally this would be covered by types but since the types don't
consider flags and DEV it doesn't really help.
We have three kinds of stacks that we send in the RSC protocol:
- The stack trace where a replayed `console.log` was called on the
server.
- The JSX callsite that created a Server Component which then later
called another component.
- The JSX callsite that created a Host or Client Component.
These stack frames disappear in native stacks on the client since
they're executed on the server. This evals a fake file which only has
one call in it on the same line/column as the server. Then we call
through these fake modules to "replay" the callstack. We then replay the
`console.log` within this stack, or call `console.createTask` in this
stack to recreate the stack.
The main concern with this approach is the performance. It adds
significant cost to create all these eval:ed functions but it should
eventually balance out.
This doesn't yet apply source maps to these. With source maps it'll be
able to show the server source code when clicking the links.
I don't love how these appear.
- Because we haven't yet initialized the client module we don't have the
name of the client component we're about to render yet which leads to
the `<...>` task name.
- The `(async)` suffix Chrome adds is still a problem.
- The VMxxxx prefix is used to disambiguate which is noisy. Might be
helped by source maps.
- The continuation of the async stacks end up rooted somewhere in the
bootstrapping of the app. This might be ok when the bootstrapping ends
up ignore listed but it's kind of a problem that you can't clear the
async stack.
<img width="927" alt="Screenshot 2024-05-28 at 11 58 56 PM"
src="https://github.com/facebook/react/assets/63648/1c9d32ce-e671-47c8-9d18-9fab3bffabd0">
<img width="431" alt="Screenshot 2024-05-28 at 11 58 07 PM"
src="https://github.com/facebook/react/assets/63648/52f57518-bbed-400e-952d-6650835ac6b6">
<img width="327" alt="Screenshot 2024-05-28 at 11 58 31 PM"
src="https://github.com/facebook/react/assets/63648/d311a639-79a1-457f-9a46-4f3298d07e65">
<img width="817" alt="Screenshot 2024-05-28 at 11 59 12 PM"
src="https://github.com/facebook/react/assets/63648/3aefd356-acf4-4daa-bdbf-b8c8345f6d4b">