--- name: sentry-known-pitfalls description: 'Identify and fix common Sentry SDK pitfalls that cause silent data loss, cost overruns, and missed alerts. Covers 10 anti-patterns with fix code. Use when auditing Sentry config, debugging missing events, or reviewing SDK setup. Trigger: "sentry pitfalls", "sentry anti-patterns", "sentry mistakes", "why are sentry events missing". ' allowed-tools: Read, Write, Edit, Grep, Glob, Bash(node:*), Bash(npm:*), Bash(npx:*), Bash(grep:*), Bash(find:*) version: 1.51.0 license: MIT author: Jeremy Longshore tags: - saas - sentry - anti-patterns - troubleshooting - best-practices - sdk - configuration compatibility: Designed for Claude Code, also compatible with Codex and OpenClaw --- # Sentry Known Pitfalls ## Overview Ten production-grade Sentry SDK anti-patterns that silently break error tracking, inflate costs, or leave teams blind to failures. Each pitfall includes the broken pattern, root cause, and production-ready fix. For extended code samples and audit scripts, see [configuration pitfalls](references/configuration-pitfalls.md), [error capture pitfalls](references/error-capture-pitfalls.md), [SDK initialization pitfalls](references/sdk-initialization-pitfalls.md), [integration pitfalls](references/integration-pitfalls.md), and [monitoring pitfalls](references/monitoring-pitfalls.md). ## Prerequisites - Active Sentry project with `@sentry/node` >= 8.x or `@sentry/browser` >= 8.x - Access to the codebase containing `Sentry.init()` configuration - Environment variable management (`.env`, secrets manager, or CI/CD vars) ## Instructions ### Step 1: Scan for Existing Pitfalls ```bash # Hardcoded DSNs (Pitfall 1) grep -rn "ingest\.sentry\.io" --include="*.ts" --include="*.js" src/ # 100% sample rates (Pitfall 2) grep -rn "sampleRate.*1\.0" --include="*.ts" --include="*.js" src/ # Missing flush calls (Pitfall 3) grep -rn "Sentry\.flush\|Sentry\.close" --include="*.ts" --include="*.js" src/ # Wrong SDK imports (Pitfall 8) grep -rn "@sentry/node" --include="*.tsx" --include="*.jsx" src/ ``` ### Step 2: Pitfall 1 — Hardcoding DSN in Source Code DSN in source ships in client bundles and cannot be rotated without a deploy. Attackers flood your project with garbage events. ```typescript // WRONG Sentry.init({ dsn: 'https://abc123@o123456.ingest.us.sentry.io/7890123', }); // RIGHT — environment variable Sentry.init({ dsn: process.env.SENTRY_DSN }); // RIGHT — browser apps: build-time injection (Vite) // vite.config.ts: define: { __SENTRY_DSN__: JSON.stringify(process.env.SENTRY_DSN) } // app.ts: Sentry.init({ dsn: __SENTRY_DSN__ }); ``` ### Step 3: Pitfall 2 — `sampleRate: 1.0` in Production 100% sampling sends every trace. At 500K requests/day, overage is ~$371/month. ```typescript // WRONG Sentry.init({ tracesSampleRate: 1.0 }); // RIGHT — endpoint-specific sampling Sentry.init({ tracesSampler: ({ name, parentSampled }) => { if (typeof parentSampled === 'boolean') return parentSampled; if (name?.match(/\/(health|ping|ready)/)) return 0; if (name?.includes('/checkout')) return 0.25; return 0.01; // 1% default }, replaysSessionSampleRate: 0.1, replaysOnErrorSampleRate: 1.0, }); ``` ### Step 4: Pitfall 3 — Not Calling `flush()` in Serverless/CLI Sentry queues events in memory. Serverless/CLI processes exit before the queue drains — events never reach Sentry. ```typescript // WRONG — Lambda exits, events lost export const handler = async (event) => { try { return await processEvent(event); } catch (error) { Sentry.captureException(error); throw error; // Queue never drains } }; // RIGHT — flush before exit export const handler = async (event) => { try { return await processEvent(event); } catch (error) { Sentry.captureException(error); await Sentry.flush(2000); throw error; } }; // BEST — use @sentry/aws-serverless wrapper import * as Sentry from '@sentry/aws-serverless'; export const handler = Sentry.wrapHandler(async (event) => { return await processEvent(event); }); ``` ### Step 5: Pitfall 4 — `beforeSend` Returning `null` for All Events Missing `return event` causes JavaScript to return `undefined`, which Sentry treats as "drop." A single missing return kills all tracking. ```typescript // WRONG — non-error events silently vanish Sentry.init({ beforeSend(event) { if (event.level === 'error') return event; // Falls through — undefined — ALL non-errors dropped }, }); // RIGHT — always return event as the last line Sentry.init({ beforeSend(event, hint) { const error = hint?.originalException; if (error instanceof Error && error.message.match(/^NetworkError/)) { return null; // Explicit drop } return event; // Always the last line }, }); ``` ### Step 6: Pitfall 5 — Release Version Mismatch (SDK vs Source Maps) SDK `release` must exactly match `sentry-cli releases new`. A `v` prefix mismatch means source maps never apply. ```typescript // WRONG — "1.2.3" vs "v1.2.3" Sentry.init({ release: process.env.npm_package_version }); // CLI: sentry-cli releases new "v1.2.3" // RIGHT — single source of truth const SENTRY_RELEASE = `myapp@${process.env.GIT_SHA || 'dev'}`; Sentry.init({ release: SENTRY_RELEASE }); ``` ```bash # CI — same variable feeds both SDK and CLI export SENTRY_RELEASE="myapp@$(git rev-parse --short HEAD)" npx sentry-cli releases new "$SENTRY_RELEASE" npx sentry-cli sourcemaps upload --release="$SENTRY_RELEASE" \ --url-prefix="~/static/js" ./dist/static/js/ npx sentry-cli releases finalize "$SENTRY_RELEASE" ``` ### Step 7: Pitfall 6 — Catching Errors Without Re-Throwing Capturing to Sentry but not re-throwing means the function returns `undefined`. Downstream code breaks silently. ```typescript // WRONG — returns undefined async function getUser(id: string) { try { return await fetch(`/api/users/${id}`).then(r => r.json()); } catch (error) { Sentry.captureException(error); // Returns undefined — callers get TypeError } } // RIGHT — capture and re-throw async function getUser(id: string) { try { return await fetch(`/api/users/${id}`).then(r => r.json()); } catch (error) { Sentry.captureException(error); throw error; } } ``` ### Step 8: Pitfall 7 — Missing `environment` Tag Without `environment`, dev errors pollute prod dashboards. Alert rules fire on local noise. Issue counts are inflated. ```typescript // WRONG Sentry.init({ dsn: process.env.SENTRY_DSN }); // RIGHT Sentry.init({ dsn: process.env.SENTRY_DSN, environment: process.env.NODE_ENV || 'development', }); // For Vercel/Railway preview environments: function getSentryEnvironment(): string { if (process.env.VERCEL_ENV) return process.env.VERCEL_ENV; if (process.env.RAILWAY_ENVIRONMENT) return process.env.RAILWAY_ENVIRONMENT; return process.env.NODE_ENV || 'development'; } ``` ### Step 9: Pitfall 8 — Importing `@sentry/node` in Browser Bundle `@sentry/node` depends on Node.js built-ins (`http`, `fs`). Browser import causes build failures, 100KB+ polyfill bloat, or runtime crashes. ```typescript // WRONG import * as Sentry from '@sentry/node'; // In React/Vue/browser code // RIGHT — platform-specific SDK import * as Sentry from '@sentry/react'; // React import * as Sentry from '@sentry/vue'; // Vue import * as Sentry from '@sentry/nextjs'; // Next.js (client + server) import * as Sentry from '@sentry/node'; // Server-only import * as Sentry from '@sentry/aws-serverless'; // AWS Lambda ``` ### Step 10: Pitfall 9 — Ignoring `429 Too Many Requests` When quota is exceeded, Sentry returns 429 and the SDK silently drops events. You lose data during peak traffic — exactly when you need it most. **Prevention:** 1. Enable **Spike Protection** in Sentry Organization Settings 2. Set **per-key rate limits** in Project Settings > Client Keys 3. Monitor client reports: Project Settings > Client Keys > Stats ```typescript // Client-side circuit breaker for resilience let sentryBackoff = 0; Sentry.init({ beforeSend(event) { if (Date.now() < sentryBackoff) return null; return event; }, }); ``` ### Step 11: Pitfall 10 — No Alert Rules Configured Sentry collects errors but does not notify anyone by default. Without alerts, critical bugs go unnoticed for hours. **Three-tier alert structure:** | Tier | Trigger | Channel | |------|---------|---------| | Immediate | New fatal/error issue in prod | PagerDuty | | Urgent | Error rate > 100 events in 5 min | Slack #alerts | | Awareness | Issue unresolved > 7 days | Email digest | Set up in Sentry UI: **Alerts > Create Alert > Issue Alert** (Tier 1) or **Metric Alert** (Tier 2). See [monitoring pitfalls](references/monitoring-pitfalls.md) for API-based alert creation. ### Step 12: Run the Full Audit Checklist See [audit script](references/configuration-pitfalls.md) for a bash script that checks all 10 pitfalls in one pass. ## Output - Audit report listing which of the 10 pitfalls were found - Code changes applied for each identified pitfall - Confirmation that `beforeSend` returns `event` on all paths - `environment` and `release` properly configured - Alert rules created or recommended (three tiers) ## Error Handling | Pitfall | Symptom | Fix | |---------|---------|-----| | Hardcoded DSN | Spam events from attackers | `process.env.SENTRY_DSN` or build-time injection | | `sampleRate: 1.0` | 10-50x cost overrun | `tracesSampler` with per-endpoint rates | | No `flush()` | Zero events from Lambda/CLI | `await Sentry.flush(2000)` before exit | | `beforeSend` drops all | Events silently vanish | Always end with `return event` | | Release mismatch | Minified stack traces | Single `SENTRY_RELEASE` env var | | Swallowed catch | Cascading undefined errors | Re-throw after capture | | No `environment` | Dev noise in prod dashboard | `environment: process.env.NODE_ENV` | | Wrong SDK import | Build failure or bloat | Platform-specific SDK package | | Ignoring 429s | Data loss at peak traffic | Spike protection + circuit breaker | | No alerts | Bugs accumulate unnoticed | Three-tier alert rules | ## Examples **Example 1: Full-stack audit of existing Sentry setup** Request: "Audit our Sentry integration for common mistakes" Result: Found hardcoded DSN in `config.ts` (Pitfall 1), 100% `tracesSampleRate` (Pitfall 2), no `environment` tag (Pitfall 7), and zero alert rules (Pitfall 10). Applied fixes for all four, added CI gate for DSN detection, created three-tier alert config. See [examples](references/examples.md) for more scenarios. **Example 2: Debugging missing Lambda errors** Request: "Sentry shows no errors from our Lambda functions but we know they're failing" Result: Identified Pitfall 3 — no `flush()` call before Lambda return. Wrapped all handlers with `Sentry.wrapHandler()` from `@sentry/aws-serverless`. Events now appear within 5 seconds of invocation. **Example 3: Source map stack traces showing minified code** Request: "Sentry stack traces are all minified even though we upload source maps" Result: SDK used `release: "2.1.0"` while CLI used `"v2.1.0"` (Pitfall 5). Unified both to `$GIT_SHA` via shared `SENTRY_RELEASE` env var. Stack traces now show original TypeScript source. ## Resources - [Sentry JavaScript Troubleshooting](https://docs.sentry.io/platforms/javascript/troubleshooting/) - Sentry Best Practices - [Sentry Configuration Options](https://docs.sentry.io/platforms/javascript/configuration/options/) - [Sentry Source Maps](https://docs.sentry.io/platforms/javascript/sourcemaps/) - [Sentry Quota Management](https://docs.sentry.io/pricing/quotas/) - [Sentry Alerts](https://docs.sentry.io/product/alerts/) ## Next Steps - Run the scan commands from Step 1 against your codebase - Fix pitfalls in priority order: Pitfall 1 (security) > Pitfall 3 (data loss) > Pitfall 10 (alerting) - Add DSN CI gate to prevent regression - Set up three-tier alert structure before further Sentry work