SKILL.md
readonly只读
name
epic-caching
description
Guide on caching with cachified, SQLite cache, and LRU cache for Epic Stack
Epic Stack: Caching
When to use this skill
Use this skill when you need to:
- Cache results of expensive queries
- Cache responses from external APIs
- Optimize performance of data that doesn't change frequently
- Implement stale-while-revalidate
- Manage cache invalidation
- Integrate cache with server timing
Patterns and conventions
Caching Philosophy
Following Epic Web principles:
Weigh the cost-benefit of performance optimizations - Caching adds complexity. Only add cache when there's a clear, measurable benefit. Don't cache "just in case" - cache when you have a real performance problem that caching solves.
When NOT to use cache:
- Data that changes frequently (cache invalidation becomes a problem)
- Data that's already fast to fetch (no measurable benefit)
- Data that's only fetched once (no benefit from caching)
- Simple queries that don't need optimization
- When cache invalidation logic becomes more complex than the problem it solves
Example - Evaluating cost-benefit:
// ✅ Good - Cache expensive external API call
export async function getGitHubEvents({ username, timings }: { username: string; timings?: Timings }) {
return await cachified({
key: `github:${username}:events`,
cache,
timings,
getFreshValue: async () => {
// Expensive: External API call, rate limits, network latency
const response = await fetch(`https://api.github.com/users/${username}/events/public`)
return await response.json()
},
checkValue: GitHubEventSchema.array(),
ttl: 1000 * 60 * 60, // 1 hour - reasonable for external data
})
}
// ❌ Avoid - Caching simple, fast database query
export async function getUser({ userId }: { userId: string }) {
// This query is already fast - caching adds complexity without benefit
return await cachified({
key: `user:${userId}`,
cache,
getFreshValue: async () => {
// Simple query, already fast
return await prisma.user.findUnique({
where: { id: userId },
select: { id: true, username: true },
})
},
ttl: 1000 * 60 * 5,
})
// Better: Just query directly without cache
}
Two Types of Cache
Epic Stack provides two types of cache:
-
SQLite Cache - Long-lived, replicated with LiteFS
- Persistent across restarts
- Replicated across all instances
- Ideal for data that changes infrequently
-
LRU Cache - Short-lived, in-memory
- Cleared on restart
- Not replicated (only on current instance)
- Ideal for deduplication and temporary cache
Using cachified
Epic Stack uses @epic-web/cachified as an abstraction for cache management.
Basic import:
import { cachified, cache } from '#app/utils/cache.server.ts'
import { type Timings } from '#app/utils/timing.server.ts'
Basic structure:
export async function getCachedData({
timings,
}: {
timings?: Timings
} = {}) {
return await cachified({
key: 'my-cache-key',
cache,
timings,
getFreshValue: async () => {
// Get fresh data
return await fetchDataFromAPI()
},
checkValue: z.object({ /* schema */ }), // Validation with Zod
ttl: 1000 * 60 * 60 * 24, // 24 hours
staleWhileRevalidate: 1000 * 60 * 60 * 24 * 30, // 30 days
})
}
Cache Keys
Naming conventions:
- Use format:
entity:identifier:data - Examples:
user:${userId}:profilenote:${noteId}:fullapi:github:eventstito:scheduled-events
Avoid:
- Keys that are too long
- Keys with special characters
- Keys that don't clearly identify the content
TTL (Time To Live)
Define TTL:
await cachified({
key: 'my-key',
cache,
getFreshValue: () => fetchData(),
ttl: 1000 * 60 * 60 * 24, // 24 hours in milliseconds
})
Null TTL to never expire:
ttl: null, // Never expires (not recommended unless necessary)
Stale-While-Revalidate (SWR)
SWR allows returning stale data while fresh data is fetched in the background.
Example:
await cachified({
key: 'my-key',
cache,
getFreshValue: () => fetchData(),
ttl: 1000 * 60 * 60 * 24, // 24 hours - after this it's considered stale
staleWhileRevalidate: 1000 * 60 * 60 * 24 * 30, // 30 days - up to here returns stale while revalidating
})
Behavior:
- Less than 24h: Returns cache, no request made
- 24h - 30 days: Returns stale cache immediately, updates in background
- More than 30 days: Waits for fresh data before returning
Validation with Zod
Always validate cached data with Zod:
import { z } from 'zod'
const EventSchema = z.object({
id: z.string(),
title: z.string(),
date: z.string(),
})
export async function getEvents({ timings }: { timings?: Timings } = {}) {
return await cachified({
key: 'events:all',
cache,
timings,
getFreshValue: async () => {
const response = await fetch('https://api.example.com/events')
return await response.json()
},
checkValue: EventSchema.array(), // Validates it's an array of events
ttl: 1000 * 60 * 60 * 24, // 24 hours
})
}
If cached data doesn't pass validation, fresh data is fetched.
Server Timing Integration
Integrate cache with server timing for monitoring:
import { type Timings } from '#app/utils/timing.server.ts'
export async function loader({ request }: Route.LoaderArgs) {
const timings: Timings = {}
const events = await getEvents({ timings })
// Timings are automatically added to headers
return json({ events }, {
headers: combineServerTimings(timings),
})
}
Cache Invalidation
Invalidate by key:
import { cache } from '#app/utils/cache.server.ts'
await cache.delete('user:123:profile')
Invalidate multiple keys:
// Search and delete matching keys
import { searchCacheKeys } from '#app/utils/cache.server.ts'
const keys = await searchCacheKeys('user:123', 100)
await Promise.all(keys.map(key => cache.delete(key)))
Invalidate entire SQLite cache:
// Use admin dashboard or
await cache.clear() // If available
Using LRU Cache
For temporary data, use LRU cache directly:
import { lru } from '#app/utils/cache.server.ts'
// LRU cache is useful for:
// - Request deduplication
// - Very temporary cache (< 5 minutes)
// - Data that doesn't need to persist
const cachedValue = lru.get('temp-key')
if (!cachedValue) {
const freshValue = await computeExpensiveValue()
lru.set('temp-key', freshValue, { ttl: 1000 * 60 * 5 }) // 5 minutes
return freshValue
}
return cachedValue
Multi-Region Cache
With LiteFS, SQLite cache is automatically replicated:
Behavior:
- Only the primary instance writes to cache
- Replicas can read from cache
- Writes are automatically synchronized
Best practices:
- Don't assume all writes are immediate
- Use
ensurePrimary()if you need to guarantee writes
import { ensurePrimary } from '#app/utils/litefs.server.ts'
export async function action({ request }: Route.ActionArgs) {
await ensurePrimary() // Ensure we're on primary instance
// Invalidate cache
await cache.delete('my-key')
// ...
}
Error Handling
Handle errors in getFreshValue:
await cachified({
key: 'my-key',
cache,
getFreshValue: async () => {
try {
return await fetchData()
} catch (error) {
console.error('Failed to fetch fresh data:', error)
throw error // Re-throw so cachified handles it
}
},
// If getFreshValue fails and there's stale cache, it returns it
fallbackToCache: true, // Default: true
})
Cache Admin Dashboard
Epic Stack includes a dashboard to manage cache:
Route: /admin/cache
Features:
- View all cache keys
- Search keys
- View details of a key
- Delete keys
- Clear entire cache
Common examples
Example 1: Cache external API response
// app/utils/api.server.ts
import { cachified, cache } from '#app/utils/cache.server.ts'
import { type Timings } from '#app/utils/timing.server.ts'
import { z } from 'zod'
const GitHubEventSchema = z.object({
id: z.string(),
type: z.string(),
actor: z.object({
login: z.string(),
}),
created_at: z.string(),
})
export async function getGitHubEvents({
username,
timings,
}: {
username: string
timings?: Timings
}) {
return await cachified({
key: `github:${username}:events`,
cache,
timings,
getFreshValue: async () => {
const response = await fetch(
`https://api.github.com/users/${username}/events/public`,
)
if (!response.ok) {
throw new Error(`GitHub API error: ${response.statusText}`)
}
const data = await response.json()
return data
},
checkValue: GitHubEventSchema.array(),
ttl: 1000 * 60 * 60, // 1 hour
staleWhileRevalidate: 1000 * 60 * 60 * 24, // 24 hours
})
}
Example 2: Cache Prisma query
// app/utils/user.server.ts
import { cachified, cache } from '#app/utils/cache.server.ts'
import { prisma } from '#app/utils/db.server.ts'
import { z } from 'zod'
const UserStatsSchema = z.object({
totalNotes: z.number(),
totalLikes: z.number(),
joinDate: z.string(),
})
export async function getUserStats({
userId,
timings,
}: {
userId: string
timings?: Timings
}) {
return await cachified({
key: `user:${userId}:stats`,
cache,
timings,
getFreshValue: async () => {
const [totalNotes, totalLikes, user] = await Promise.all([
prisma.note.count({ where: { ownerId: userId } }),
prisma.like.count({ where: { userId } }),
prisma.user.findUnique({
where: { id: userId },
select: { createdAt: true },
}),
])
return {
totalNotes,
totalLikes,
joinDate: user?.createdAt.toISOString() ?? '',
}
},
checkValue: UserStatsSchema,
ttl: 1000 * 60 * 5, // 5 minutes
staleWhileRevalidate: 1000 * 60 * 60, // 1 hour
})
}
Example 3: Invalidate cache after mutation
// app/routes/users/$username/notes/new.tsx
export async function action({ request }: Route.ActionArgs) {
const userId = await requireUserId(request)
const formData = await request.formData()
// ... validate and create note
const note = await prisma.note.create({
data: {
title,
content,
ownerId: userId,
},
include: { owner: true },
})
// Invalidate related cache
await Promise.all([
cache.delete(`user:${userId}:notes`),
cache.delete(`user:${userId}:stats`),
cache.delete(`note:${note.id}:full`),
])
return redirect(`/users/${note.owner.username}/notes/${note.id}`)
}
Example 4: Cache with dependencies
export async function getUserWithNotes({
userId,
timings,
}: {
userId: string
timings?: Timings
}) {
const user = await cachified({
key: `user:${userId}:profile`,
cache,
timings,
getFreshValue: async () => {
return await prisma.user.findUnique({
where: { id: userId },
select: {
id: true,
username: true,
name: true,
},
})
},
checkValue: z.object({
id: z.string(),
username: z.string(),
name: z.string().nullable(),
}).nullable(),
ttl: 1000 * 60 * 30, // 30 minutes
})
const notes = await cachified({
key: `user:${userId}:notes`,
cache,
timings,
getFreshValue: async () => {
return await prisma.note.findMany({
where: { ownerId: userId },
select: {
id: true,
title: true,
updatedAt: true,
},
orderBy: { updatedAt: 'desc' },
})
},
checkValue: z.array(z.object({
id: z.string(),
title: z.string(),
updatedAt: z.date(),
})),
ttl: 1000 * 60 * 10, // 10 minutes
})
return { user, notes }
}
Example 5: Use LRU for deduplication
// Avoid multiple simultaneous requests to the same URL
const requestCache = new Map<string, Promise<any>>()
export async function fetchWithDedup(url: string) {
if (requestCache.has(url)) {
return requestCache.get(url)
}
const promise = fetch(url).then(res => res.json())
requestCache.set(url, promise)
// Clean up after 1 second
setTimeout(() => {
requestCache.delete(url)
}, 1000)
return promise
}
Common mistakes to avoid
- ❌ Caching without measuring benefit: Only add cache when there's a clear, measurable performance problem
- ❌ Caching simple, fast queries: Don't cache data that's already fast to fetch - it adds complexity without benefit
- ❌ Caching frequently changing data: Cache invalidation becomes more complex than the problem it solves
- ❌ Caching sensitive data: Never cache passwords, tokens, or sensitive personal data
- ❌ TTL too long: Avoid very long TTLs (> 1 week) unless absolutely necessary
- ❌ Not validating cached data: Always use
checkValuewith Zod to validate data - ❌ Forgetting to invalidate cache: Invalidate cache after mutations
- ❌ Assuming cache always works: Cache can fail, always handle errors
- ❌ Keys too long or ambiguous: Use consistent and descriptive format
- ❌ Not using timings: Integrate with server timing for monitoring
- ❌ Forgetting stale-while-revalidate: Use SWR for better UX when appropriate
- ❌ Over-caching: Too much caching makes the system harder to understand and debug
References
- Epic Stack Caching Docs
- Epic Web Principles
- @epic-web/cachified
app/utils/cache.server.ts- Cache implementationapp/routes/admin/cache/- Admin dashboardapp/utils/timing.server.ts- Server timing utilities
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