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import { tryResolveSync } from './thenable'
import type {
DefaultError,
MutationKey,
MutationMeta,
MutationOptions,
MutationScope,
QueryKey,
QueryMeta,
QueryOptions,
} from './types'
import type { QueryClient } from './queryClient'
import type { Query, QueryState } from './query'
import type { Mutation, MutationState } from './mutation'
// TYPES
type TransformerFn = (data: any) => any
function defaultTransformerFn(data: any): any {
return data
}
export interface DehydrateOptions {
serializeData?: TransformerFn
shouldDehydrateMutation?: (mutation: Mutation) => boolean
shouldDehydrateQuery?: (query: Query) => boolean
shouldRedactErrors?: (error: unknown) => boolean
}
export interface HydrateOptions {
defaultOptions?: {
deserializeData?: TransformerFn
queries?: QueryOptions
mutations?: MutationOptions<unknown, DefaultError, unknown, unknown>
}
}
interface DehydratedMutation {
mutationKey?: MutationKey
state: MutationState
meta?: MutationMeta
scope?: MutationScope
}
interface DehydratedQuery {
queryHash: string
queryKey: QueryKey
state: QueryState
promise?: Promise<unknown>
meta?: QueryMeta
// This is only optional because older versions of Query might have dehydrated
// without it which we need to handle for backwards compatibility.
// This should be changed to required in the future.
dehydratedAt?: number
}
export interface DehydratedState {
mutations: Array<DehydratedMutation>
queries: Array<DehydratedQuery>
}
// FUNCTIONS
function dehydrateMutation(mutation: Mutation): DehydratedMutation {
return {
mutationKey: mutation.options.mutationKey,
state: mutation.state,
...(mutation.options.scope && { scope: mutation.options.scope }),
...(mutation.meta && { meta: mutation.meta }),
}
}
// Most config is not dehydrated but instead meant to configure again when
// consuming the de/rehydrated data, typically with useQuery on the client.
// Sometimes it might make sense to prefetch data on the server and include
// in the html-payload, but not consume it on the initial render.
function dehydrateQuery(
query: Query,
serializeData: TransformerFn,
shouldRedactErrors: (error: unknown) => boolean,
): DehydratedQuery {
return {
dehydratedAt: Date.now(),
state: {
...query.state,
...(query.state.data !== undefined && {
data: serializeData(query.state.data),
}),
},
queryKey: query.queryKey,
queryHash: query.queryHash,
...(query.state.status === 'pending' && {
promise: query.promise?.then(serializeData).catch((error) => {
if (!shouldRedactErrors(error)) {
// Reject original error if it should not be redacted
return Promise.reject(error)
}
// If not in production, log original error before rejecting redacted error
if (process.env.NODE_ENV !== 'production') {
console.error(
`A query that was dehydrated as pending ended up rejecting. [${query.queryHash}]: ${error}; The error will be redacted in production builds`,
)
}
return Promise.reject(new Error('redacted'))
}),
}),
...(query.meta && { meta: query.meta }),
}
}
export function defaultShouldDehydrateMutation(mutation: Mutation) {
return mutation.state.isPaused
}
export function defaultShouldDehydrateQuery(query: Query) {
return query.state.status === 'success'
}
function defaultShouldRedactErrors(_: unknown) {
return true
}
export function dehydrate(
client: QueryClient,
options: DehydrateOptions = {},
): DehydratedState {
const filterMutation =
options.shouldDehydrateMutation ??
client.getDefaultOptions().dehydrate?.shouldDehydrateMutation ??
defaultShouldDehydrateMutation
const mutations = client
.getMutationCache()
.getAll()
.flatMap((mutation) =>
filterMutation(mutation) ? [dehydrateMutation(mutation)] : [],
)
const filterQuery =
options.shouldDehydrateQuery ??
client.getDefaultOptions().dehydrate?.shouldDehydrateQuery ??
defaultShouldDehydrateQuery
const shouldRedactErrors =
options.shouldRedactErrors ??
client.getDefaultOptions().dehydrate?.shouldRedactErrors ??
defaultShouldRedactErrors
const serializeData =
options.serializeData ??
client.getDefaultOptions().dehydrate?.serializeData ??
defaultTransformerFn
const queries = client
.getQueryCache()
.getAll()
.flatMap((query) =>
filterQuery(query)
? [dehydrateQuery(query, serializeData, shouldRedactErrors)]
: [],
)
return { mutations, queries }
}
export function hydrate(
client: QueryClient,
dehydratedState: unknown,
options?: HydrateOptions,
): void {
if (typeof dehydratedState !== 'object' || dehydratedState === null) {
return
}
const mutationCache = client.getMutationCache()
const queryCache = client.getQueryCache()
const deserializeData =
options?.defaultOptions?.deserializeData ??
client.getDefaultOptions().hydrate?.deserializeData ??
defaultTransformerFn
// eslint-disable-next-line @typescript-eslint/no-unnecessary-condition
const mutations = (dehydratedState as DehydratedState).mutations || []
// eslint-disable-next-line @typescript-eslint/no-unnecessary-condition
const queries = (dehydratedState as DehydratedState).queries || []
mutations.forEach(({ state, ...mutationOptions }) => {
mutationCache.build(
client,
{
...client.getDefaultOptions().hydrate?.mutations,
...options?.defaultOptions?.mutations,
...mutationOptions,
},
state,
)
})
queries.forEach(
({ queryKey, state, queryHash, meta, promise, dehydratedAt }) => {
const syncData = promise ? tryResolveSync(promise) : undefined
const rawData = state.data === undefined ? syncData?.data : state.data
const data = rawData === undefined ? rawData : deserializeData(rawData)
let query = queryCache.get(queryHash)
const existingQueryIsPending = query?.state.status === 'pending'
const existingQueryIsFetching = query?.state.fetchStatus === 'fetching'
// Do not hydrate if an existing query exists with newer data
if (query) {
const hasNewerSyncData =
syncData &&
// We only need this undefined check to handle older dehydration
// payloads that might not have dehydratedAt
dehydratedAt !== undefined &&
dehydratedAt > query.state.dataUpdatedAt
if (
state.dataUpdatedAt > query.state.dataUpdatedAt ||
hasNewerSyncData
) {
// omit fetchStatus from dehydrated state
// so that query stays in its current fetchStatus
const { fetchStatus: _ignored, ...serializedState } = state
query.setState({
...serializedState,
data,
})
}
} else {
// Restore query
query = queryCache.build(
client,
{
...client.getDefaultOptions().hydrate?.queries,
...options?.defaultOptions?.queries,
queryKey,
queryHash,
meta,
},
// Reset fetch status to idle to avoid
// query being stuck in fetching state upon hydration
{
...state,
data,
fetchStatus: 'idle',
status: data !== undefined ? 'success' : state.status,
},
)
}
if (
promise &&
!existingQueryIsPending &&
!existingQueryIsFetching &&
// Only hydrate if dehydration is newer than any existing data,
// this is always true for new queries
(dehydratedAt === undefined || dehydratedAt > query.state.dataUpdatedAt)
) {
// This doesn't actually fetch - it just creates a retryer
// which will re-use the passed `initialPromise`
// Note that we need to call these even when data was synchronously
// available, as we still need to set up the retryer
void query.fetch(undefined, {
// RSC transformed promises are not thenable
initialPromise: Promise.resolve(promise).then(deserializeData),
})
}
},
)
}
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