Execute CodeRabbit major re-architecture and migration strategies with strangler fig pattern. Use when migrating to or from CodeRabbit, performing major version upgrades, or re-platforming existing integrations to CodeRabbit. Trigger with phrases like "migrate coderabbit", "coderabbit migration", "switch to coderabbit", "coderabbit replatform", "coderabbit upgrade major".
Executes major CodeRabbit migrations and upgrades using the strangler fig pattern for safe replatforming.
/plugin marketplace add jeremylongshore/claude-code-plugins-plus-skills/plugin install coderabbit-pack@claude-code-plugins-plusThis skill is limited to using the following tools:
Comprehensive guide for migrating to or from CodeRabbit, or major version upgrades.
| Type | Complexity | Duration | Risk |
|---|---|---|---|
| Fresh install | Low | Days | Low |
| From competitor | Medium | Weeks | Medium |
| Major version | Medium | Weeks | Medium |
| Full replatform | High | Months | High |
# Document current implementation
find . -name "*.ts" -o -name "*.py" | xargs grep -l "coderabbit" > coderabbit-files.txt
# Count integration points
wc -l coderabbit-files.txt
# Identify dependencies
npm list | grep coderabbit
pip freeze | grep coderabbit
interface MigrationInventory {
dataTypes: string[];
recordCounts: Record<string, number>;
dependencies: string[];
integrationPoints: string[];
customizations: string[];
}
async function assessCodeRabbitMigration(): Promise<MigrationInventory> {
return {
dataTypes: await getDataTypes(),
recordCounts: await getRecordCounts(),
dependencies: await analyzeDependencies(),
integrationPoints: await findIntegrationPoints(),
customizations: await documentCustomizations(),
};
}
Phase 1: Parallel Run
┌─────────────┐ ┌─────────────┐
│ Old │ │ New │
│ System │ ──▶ │ CodeRabbit │
│ (100%) │ │ (0%) │
└─────────────┘ └─────────────┘
Phase 2: Gradual Shift
┌─────────────┐ ┌─────────────┐
│ Old │ │ New │
│ (50%) │ ──▶ │ (50%) │
└─────────────┘ └─────────────┘
Phase 3: Complete
┌─────────────┐ ┌─────────────┐
│ Old │ │ New │
│ (0%) │ ──▶ │ (100%) │
└─────────────┘ └─────────────┘
# Install CodeRabbit SDK
npm install @coderabbit/sdk
# Configure credentials
cp .env.example .env.coderabbit
# Edit with new credentials
# Verify connectivity
node -e "require('@coderabbit/sdk').ping()"
// src/adapters/coderabbit.ts
interface ServiceAdapter {
create(data: CreateInput): Promise<Resource>;
read(id: string): Promise<Resource>;
update(id: string, data: UpdateInput): Promise<Resource>;
delete(id: string): Promise<void>;
}
class CodeRabbitAdapter implements ServiceAdapter {
async create(data: CreateInput): Promise<Resource> {
const coderabbitData = this.transform(data);
return coderabbitClient.create(coderabbitData);
}
private transform(data: CreateInput): CodeRabbitInput {
// Map from old format to CodeRabbit format
}
}
async function migrateCodeRabbitData(): Promise<MigrationResult> {
const batchSize = 100;
let processed = 0;
let errors: MigrationError[] = [];
for await (const batch of oldSystem.iterateBatches(batchSize)) {
try {
const transformed = batch.map(transform);
await coderabbitClient.batchCreate(transformed);
processed += batch.length;
} catch (error) {
errors.push({ batch, error });
}
// Progress update
console.log(`Migrated ${processed} records`);
}
return { processed, errors };
}
// Feature flag controlled traffic split
function getServiceAdapter(): ServiceAdapter {
const coderabbitPercentage = getFeatureFlag('coderabbit_migration_percentage');
if (Math.random() * 100 < coderabbitPercentage) {
return new CodeRabbitAdapter();
}
return new LegacyAdapter();
}
# Immediate rollback
kubectl set env deployment/app CODERABBIT_ENABLED=false
kubectl rollout restart deployment/app
# Data rollback (if needed)
./scripts/restore-from-backup.sh --date YYYY-MM-DD
# Verify rollback
curl https://app.yourcompany.com/health | jq '.services.coderabbit'
async function validateCodeRabbitMigration(): Promise<ValidationReport> {
const checks = [
{ name: 'Data count match', fn: checkDataCounts },
{ name: 'API functionality', fn: checkApiFunctionality },
{ name: 'Performance baseline', fn: checkPerformance },
{ name: 'Error rates', fn: checkErrorRates },
];
const results = await Promise.all(
checks.map(async c => ({ name: c.name, result: await c.fn() }))
);
return { checks: results, passed: results.every(r => r.result.success) };
}
Document existing implementation and data inventory.
Create abstraction layer for gradual migration.
Run batch data migration with error handling.
Gradually route traffic to new CodeRabbit integration.
| Issue | Cause | Solution |
|---|---|---|
| Data mismatch | Transform errors | Validate transform logic |
| Performance drop | No caching | Add caching layer |
| Rollback triggered | Errors spiked | Reduce traffic percentage |
| Validation failed | Missing data | Check batch processing |
const status = await validateCodeRabbitMigration();
console.log(`Migration ${status.passed ? 'PASSED' : 'FAILED'}`);
status.checks.forEach(c => console.log(` ${c.name}: ${c.result.success}`));
For advanced troubleshooting, see coderabbit-advanced-troubleshooting.
Expert guidance for Next.js Cache Components and Partial Prerendering (PPR). **PROACTIVE ACTIVATION**: Use this skill automatically when working in Next.js projects that have `cacheComponents: true` in their next.config.ts/next.config.js. When this config is detected, proactively apply Cache Components patterns and best practices to all React Server Component implementations. **DETECTION**: At the start of a session in a Next.js project, check for `cacheComponents: true` in next.config. If enabled, this skill's patterns should guide all component authoring, data fetching, and caching decisions. **USE CASES**: Implementing 'use cache' directive, configuring cache lifetimes with cacheLife(), tagging cached data with cacheTag(), invalidating caches with updateTag()/revalidateTag(), optimizing static vs dynamic content boundaries, debugging cache issues, and reviewing Cache Component implementations.