- Exports additional modules from `@payloadcms/next` like
`DashboardView`, which are useful for when you provide your own view but
want to render parts of the default view
- Passes all props to custom dashboard views, giving you access to
things like `req`
- Makes use of `select` API in `payload.find` call of the dashboard view
for improved performance
Sets `reportUnusedDisableDirectives: 'error'` in our eslint config. This
will error when `// eslint-disable-*` directives are unused. It will
also auto-fix if possible.
## Why this exists
Lexical in Payload is a React Server Component (RSC). Historically that
created three headaches:
1. You couldn’t render the editor directly from the client.
2. Features like blocks, tables, upload and link drawers require the
server to know the shape of nested sub‑fields at render time. If you
tried to render on demand, the server didn’t know those schemas.
3. The rich text field is designed to live inside a Form. For simple use
cases, setting up a full form just to manage editor state was
cumbersome.
## What’s new
We now ship a client component, `<RenderLexical />`, that renders a
Lexical editor **on demand** while still covering the full feature set.
On mount, it calls a server action to render the editor on the server
using the new `render-field` server action. That server render gives
Lexical everything it needs (including nested field schemas) and returns
a ready‑to‑hydrate editor.
## Example - Rendering in custom component within existing Form
```tsx
'use client'
import type { JSONFieldClientComponent } from 'payload'
import { buildEditorState, RenderLexical } from '@payloadcms/richtext-lexical/client'
import { lexicalFullyFeaturedSlug } from '../../slugs.js'
export const Component: JSONFieldClientComponent = (args) => {
return (
<div>
Fully-Featured Component:
<RenderLexical
field={{ name: 'json' }}
initialValue={buildEditorState({ text: 'defaultValue' })}
schemaPath={`collection.${lexicalFullyFeaturedSlug}.richText`}
/>
</div>
)
}
```
## Example - Rendering outside of Form, manually managing richText
values
```ts
'use client'
import type { DefaultTypedEditorState } from '@payloadcms/richtext-lexical'
import type { JSONFieldClientComponent } from 'payload'
import { buildEditorState, RenderLexical } from '@payloadcms/richtext-lexical/client'
import React, { useState } from 'react'
import { lexicalFullyFeaturedSlug } from '../../slugs.js'
export const Component: JSONFieldClientComponent = (args) => {
const [value, setValue] = useState<DefaultTypedEditorState | undefined>(() =>
buildEditorState({ text: 'state default' }),
)
const handleReset = React.useCallback(() => {
setValue(buildEditorState({ text: 'state default' }))
}, [])
return (
<div>
Default Component:
<RenderLexical
field={{ name: 'json' }}
initialValue={buildEditorState({ text: 'defaultValue' })}
schemaPath={`collection.${lexicalFullyFeaturedSlug}.richText`}
setValue={setValue as any}
value={value}
/>
<button onClick={handleReset} style={{ marginTop: 8 }} type="button">
Reset Editor State
</button>
</div>
)
}
```
## How it works (under the hood)
- On first render, `<RenderLexical />` calls the server function
`render-field` (wired into @payloadcms/next), passing a schemaPath.
- The server loads the exact field config and its client schema map for
that path, renders the Lexical editor server‑side (so nested features
like blocks/tables/relationships are fully known), and returns the
component tree.
- While waiting, the client shows a small shimmer skeleton.
- Inside Forms, RenderLexical plugs into the parent form via useField;
outside Forms, you can fully control the value by passing
value/setValue.
## Type Improvements
While implementing the `buildEditorState` helper function for our test
suite, I noticed some issues with our `TypedEditorState` type:
- nodes were no longer narrowed by their node.type types
- upon fixing this issue, the type was no longer compatible with the
generated types. To address this, I had to weaken the generated type a
bit.
In order to ensure the type will keep functioning as intended from now
on, this PR also adds some type tests
---
- To see the specific tasks where the Asana app for GitHub is being
used, see below:
- https://app.asana.com/0/0/1211110462564644
- bumps next.js from 15.3.2 to 15.4.4 in monorepo and templates. It's
important to run our tests against the latest Next.js version to
guarantee full compatibility.
- bumps playwright because of peer dependency conflict with next 15.4.4
- bumps react types because why not
https://nextjs.org/blog/next-15-4
As part of this upgrade, the functionality added by
https://github.com/payloadcms/payload/pull/11658 broke. This PR fixes it
by creating a wrapper around `React.isValidElemen`t that works for
Next.js 15.4.
---
- To see the specific tasks where the Asana app for GitHub is being
used, see below:
- https://app.asana.com/0/0/1210803039809808
This adds a new `analyze` step to our CI that analyzes the bundle size
for our `payload`, `@payloadcms/ui`, `@payloadcms/next` and
`@payloadcms/richtext-lexical` packages.
It does so using a new `build:bundle-for-analysis` script that packages
can add if the normal build step does not output an esbuild-bundled
version suitable for analyzing. For example, `ui` already runs esbuild,
but we run it again using `build:bundle-for-analysis` because we do not
want to split the bundle.
---
- To see the specific tasks where the Asana app for GitHub is being
used, see below:
- https://app.asana.com/0/0/1210692087147570
This PR adds int tests with vitest and e2e tests with playwright
directly into our templates.
The following are also updated:
- bumps core turbo to 2.5.4 in monorepo
- blank and website templates moved up to be part of the monorepo
workspace
- this means we now have thes templates filtered out in pnpm commands in
package.json
- they will now by default use workspace packages which we can use for
manual testing and int and e2e tests
- note that turbo doesnt work with these for dev in monorepo context
- CPA script will fetch latest version and then replace `workspace:*` or
the pinned version in the package.json before installation
- blank template no longer uses _template as a base, this is to simplify
management for workspace
- updated the generate template variations script
This PR introduces a few changes to improve turbopack compatibility and
ensure e2e tests pass with turbopack enabled
## Changes to improve turbopack compatibility
- Use correct sideEffects configuration to fix scss issues
- Import scss directly instead of duplicating our scss rules
- Fix some scss rules that are not supported by turbopack
- Bump Next.js and all other dependencies used to build payload
## Changes to get tests to pass
For an unknown reason, flaky tests flake a lot more often in turbopack.
This PR does the following to get them to pass:
- add more `wait`s
- fix actual flakes by ensuring previous operations are properly awaited
## Blocking turbopack bugs
- [X] https://github.com/vercel/next.js/issues/76464
- Fix PR: https://github.com/vercel/next.js/pull/76545
- Once fixed: change `"sideEffectsDisabled":` back to `"sideEffects":`
## Non-blocking turbopack bugs
- [ ] https://github.com/vercel/next.js/issues/76956
## Related PRs
https://github.com/payloadcms/payload/pull/12653https://github.com/payloadcms/payload/pull/12652
I think it's easier to review this PR commit by commit, so I'll explain
it this way:
## Commits
1. [parallelize eslint script (still showing logs results in
serial)](c9ac49c12d):
Previously, `--concurrency 1` was added to the script to make the logs
more readable. However, turborepo has an option specifically for these
use cases: `--log-order=grouped` runs the tasks in parallel but outputs
them serially. As a result, the lint script is now significantly faster.
2. [run pnpm
lint:fix](9c128c276a)
The auto-fix was run, which resolved some eslint errors that were
slipped in due to the use of `no-verify`. Most of these were
`perfectionist` fixes (property ordering) and the removal of unnecessary
assertions. Starting with this PR, this won't happen again in the
future, as we'll be verifying the linter in every PR across the entire
codebase (see commit 7).
3. [fix eslint non-autofixable
errors](700f412a33)
All manual errors have been resolved except for the configuration errors
addressed in commit 5. Most were React compiler violations, which have
been disabled and commented out "TODO" for now. There's also an unused
`use no memo` and a couple of `require` errors.
4. [move react-compiler linter to eslint-config
package](4f7cb4d63a)
To simplify the eslint configuration. My concern was that there would be
a performance regression when used in non-react related packages, but
none was experienced. This is probably because it only runs on .tsx
files.
5. [remove redundant eslint config files and fix
allowDefaultProject](a94347995a)
The main feature introduced by `typescript-eslint` v8 was
`projectService`, which automatically searches each file for the closest
`tsconfig`, greatly simplifying configuration in monorepos
([source](https://typescript-eslint.io/blog/announcing-typescript-eslint-v8#project-service)).
Once I moved `projectService` to `packages/eslint-config`, all the other
configuration files could be easily removed.
I confirmed that pnpm lint still works on individual packages.
The other important change was that the pending eslint errors from
commits 2 and 3 were resolved. That is, some files were giving the
error: "[File] was not found by the project service. Consider either
including it in the tsconfig.json or including it in
allowDefaultProject." Below I copy the explanatory comment I left in the
code:
```ts
// This is necessary because `tsconfig.base.json` defines `"rootDir": "${configDir}/src"`,
// And the following files aren't in src because they aren't transpiled.
// This is typescript-eslint's way of adding files that aren't included in tsconfig.
// See: https://typescript-eslint.io/troubleshooting/typed-linting/#i-get-errors-telling-me--was-not-found-by-the-project-service-consider-either-including-it-in-the-tsconfigjson-or-including-it-in-allowdefaultproject
// The best practice is to have a tsconfig.json that covers ALL files and is used for
// typechecking (with noEmit), and a `tsconfig.build.json` that is used for the build
// (or alternatively, swc, tsup or tsdown). That's what we should ideally do, in which case
// this hardcoded list wouldn't be necessary. Note that these files don't currently go
// through ts, only through eslint.
```
6. [Differentiate errors from warnings in VScode ESLint
Rules](5914d2f48d)
There's no reason to do that. If an eslint rule isn't an error, it
should be disabled or converted to a warning.
7. [Disable skip lint, and lint over the entire repo now that it's
faster](e4b28f1360)
The GitHub action linted only the files that had changed in the PR.
While this seems like a good idea, once exceptions were introduced with
[skip lint], they opened the door to propagating more and more errors.
Often, the linter was skipped, not because someone introduced new
errors, but because they were trying to avoid those that had already
crept in, sometimes accidentally introducing new ones.
On the other hand, `pnpm lint` now runs in parallel (commit 1), so it's
not that slow. Additionally, it runs in parallel with other GitHub
actions like e2e tests, which take much longer, so it can't represent a
bottleneck in CI.
8. [fix lint in next
package](4506595f91)
Small fix missing from commit 5
9. [Merge remote-tracking branch 'origin/main' into
fix-eslint](563d4909c1)
10. [add again eslint.config.js in payload
package](78f6ffcae7)
The comment in the code explains it. Basically, after the merge from
main, the payload package runs out of memory when linting, probably
because it grew in recent PRs. That package will sooner or later
collapse for our tooling, so we may have to split it. It's already too
big.
## Future Actions
- Resolve React compiler violations, as mentioned in commit 3.
- Decouple the `tsconfig` used for typechecking and build across the
entire monorepo (as explained in point 5) to ensure ts coverage even for
files that aren't transpiled (such as scripts).
- Remove the few remaining `eslint.config.js`. I had to leave the
`richtext-lexical` and `next` ones for now. They could be moved to the
root config and scoped to their packages, as we do for example with
`templates/vercel-postgres/**`. However, I couldn't get it to work, I
don't know why.
- Make eslint in the test folder usable. Not only are we not linting
`test` in CI, but now the `pnpm eslint .` command is so large that my
computer freezes. If each suite were its own package, this would be
solved, and dynamic codegen + git hooks to modify tsconfig.base.json
wouldn't be necessary
([related](https://github.com/payloadcms/payload/pull/11984)).
Follow up to #11900. The `@payloadcms/next/auth` export was missing from
the published package.json because it was excluded from the
`publishConfig` property.
### What
Adds exportable server functions for `login`, `logout` and `refresh`
that are fully typed and ready to use.
### Why
Creating server functions for these auth operations require the
developer to manually set and handle the cookies / auth JWT. This can be
a complex and involved process - instead we want to provide an option
that will handle the cookies internally and simplify the process for the
user.
### How
Three re-usable functions can be exported from
`@payload/next/server-functions`:
- login
- logout
- refresh
Examples of how to use these functions will be added to the docs
shortly, along with more in-depth info on server functions.
**BREAKING CHANGE:**
This bumps the **minimum required Next.js** version from 15.0.0 to
15.2.3. This update is necessary due to a critical security
vulnerability found in earlier Next.js versions, which requires an
exception to our standard semantic versioning process.
Additionally, this bumps all templates to the latest Next.js and Payload
versions.
