AgentSkillsCN

apollo-sdk-patterns

应用生产就绪的Apollo.io SDK模式。 当实施Apollo集成、重构API使用、 或建立团队编码标准时使用。 可通过“Apollo SDK模式”、“Apollo最佳实践”、 “Apollo代码模式”、“惯用Apollo”、“Apollo客户端封装”等短语触发。

SKILL.md
--- frontmatter
name: apollo-sdk-patterns
description: |
  Apply production-ready Apollo.io SDK patterns.
  Use when implementing Apollo integrations, refactoring API usage,
  or establishing team coding standards.
  Trigger with phrases like "apollo sdk patterns", "apollo best practices",
  "apollo code patterns", "idiomatic apollo", "apollo client wrapper".
allowed-tools: Read, Write, Edit
version: 1.0.0
license: MIT
author: Jeremy Longshore <jeremy@intentsolutions.io>

Apollo SDK Patterns

Overview

Production-ready patterns for Apollo.io API integration with type safety, error handling, and retry logic.

Prerequisites

  • Completed apollo-install-auth setup
  • Familiarity with async/await patterns
  • Understanding of TypeScript generics

Pattern 1: Type-Safe Client Singleton

typescript
// src/lib/apollo/client.ts
import axios, { AxiosInstance, AxiosError } from 'axios';
import { z } from 'zod';

// Response schemas
const PersonSchema = z.object({
  id: z.string(),
  name: z.string(),
  first_name: z.string().optional(),
  last_name: z.string().optional(),
  title: z.string().optional(),
  email: z.string().email().optional(),
  linkedin_url: z.string().url().optional(),
  organization: z.object({
    id: z.string(),
    name: z.string(),
    domain: z.string().optional(),
  }).optional(),
});

const PeopleSearchResponseSchema = z.object({
  people: z.array(PersonSchema),
  pagination: z.object({
    page: z.number(),
    per_page: z.number(),
    total_entries: z.number(),
    total_pages: z.number(),
  }),
});

export type Person = z.infer<typeof PersonSchema>;
export type PeopleSearchResponse = z.infer<typeof PeopleSearchResponseSchema>;

class ApolloClient {
  private static instance: ApolloClient;
  private client: AxiosInstance;

  private constructor() {
    this.client = axios.create({
      baseURL: 'https://api.apollo.io/v1',
      timeout: 30000,
      headers: { 'Content-Type': 'application/json' },
      params: { api_key: process.env.APOLLO_API_KEY },
    });

    this.setupInterceptors();
  }

  static getInstance(): ApolloClient {
    if (!ApolloClient.instance) {
      ApolloClient.instance = new ApolloClient();
    }
    return ApolloClient.instance;
  }

  private setupInterceptors() {
    this.client.interceptors.response.use(
      (response) => response,
      this.handleError.bind(this)
    );
  }

  private handleError(error: AxiosError) {
    if (error.response?.status === 429) {
      throw new ApolloRateLimitError('Rate limit exceeded');
    }
    if (error.response?.status === 401) {
      throw new ApolloAuthError('Invalid API key');
    }
    throw error;
  }

  async searchPeople(params: PeopleSearchParams): Promise<PeopleSearchResponse> {
    const { data } = await this.client.post('/people/search', params);
    return PeopleSearchResponseSchema.parse(data);
  }
}

export const apollo = ApolloClient.getInstance();

Pattern 2: Retry with Exponential Backoff

typescript
// src/lib/apollo/retry.ts
interface RetryConfig {
  maxRetries: number;
  baseDelay: number;
  maxDelay: number;
}

const defaultConfig: RetryConfig = {
  maxRetries: 3,
  baseDelay: 1000,
  maxDelay: 30000,
};

export async function withRetry<T>(
  fn: () => Promise<T>,
  config: Partial<RetryConfig> = {}
): Promise<T> {
  const { maxRetries, baseDelay, maxDelay } = { ...defaultConfig, ...config };

  let lastError: Error;

  for (let attempt = 0; attempt <= maxRetries; attempt++) {
    try {
      return await fn();
    } catch (error) {
      lastError = error as Error;

      if (error instanceof ApolloAuthError) {
        throw error; // Don't retry auth errors
      }

      if (attempt < maxRetries) {
        const delay = Math.min(baseDelay * Math.pow(2, attempt), maxDelay);
        await new Promise((resolve) => setTimeout(resolve, delay));
      }
    }
  }

  throw lastError!;
}

// Usage
const people = await withRetry(() => apollo.searchPeople({ domain: 'stripe.com' }));

Pattern 3: Paginated Iterator

typescript
// src/lib/apollo/pagination.ts
export async function* paginateSearch(
  searchFn: (page: number) => Promise<PeopleSearchResponse>,
  options: { maxPages?: number } = {}
): AsyncGenerator<Person[], void, unknown> {
  const maxPages = options.maxPages || Infinity;
  let page = 1;
  let totalPages = 1;

  while (page <= Math.min(totalPages, maxPages)) {
    const response = await searchFn(page);
    totalPages = response.pagination.total_pages;

    yield response.people;
    page++;

    // Respect rate limits
    await new Promise((resolve) => setTimeout(resolve, 100));
  }
}

// Usage
async function getAllPeople(domain: string): Promise<Person[]> {
  const allPeople: Person[] = [];

  for await (const batch of paginateSearch(
    (page) => apollo.searchPeople({ q_organization_domains: [domain], page, per_page: 100 })
  )) {
    allPeople.push(...batch);
  }

  return allPeople;
}

Pattern 4: Request Batching

typescript
// src/lib/apollo/batch.ts
class ApolloBatcher {
  private queue: Array<{ domain: string; resolve: Function; reject: Function }> = [];
  private timeout: NodeJS.Timeout | null = null;
  private readonly batchSize = 10;
  private readonly batchDelay = 100;

  async enrichCompany(domain: string): Promise<Organization> {
    return new Promise((resolve, reject) => {
      this.queue.push({ domain, resolve, reject });
      this.scheduleBatch();
    });
  }

  private scheduleBatch() {
    if (this.timeout) return;

    this.timeout = setTimeout(async () => {
      this.timeout = null;
      const batch = this.queue.splice(0, this.batchSize);

      try {
        // Apollo doesn't have batch endpoint, process sequentially with rate limiting
        for (const item of batch) {
          try {
            const result = await apollo.enrichOrganization(item.domain);
            item.resolve(result);
          } catch (error) {
            item.reject(error);
          }
          await new Promise((r) => setTimeout(r, 50)); // Rate limit spacing
        }
      } catch (error) {
        batch.forEach((item) => item.reject(error));
      }

      if (this.queue.length > 0) {
        this.scheduleBatch();
      }
    }, this.batchDelay);
  }
}

export const apolloBatcher = new ApolloBatcher();

Pattern 5: Custom Error Classes

typescript
// src/lib/apollo/errors.ts
export class ApolloError extends Error {
  constructor(message: string, public readonly code?: string) {
    super(message);
    this.name = 'ApolloError';
  }
}

export class ApolloRateLimitError extends ApolloError {
  constructor(message: string = 'Rate limit exceeded') {
    super(message, 'RATE_LIMIT');
    this.name = 'ApolloRateLimitError';
  }
}

export class ApolloAuthError extends ApolloError {
  constructor(message: string = 'Authentication failed') {
    super(message, 'AUTH_ERROR');
    this.name = 'ApolloAuthError';
  }
}

export class ApolloValidationError extends ApolloError {
  constructor(message: string, public readonly details?: unknown) {
    super(message, 'VALIDATION_ERROR');
    this.name = 'ApolloValidationError';
  }
}

Output

  • Type-safe client singleton with Zod validation
  • Robust error handling with custom error classes
  • Automatic retry with exponential backoff
  • Async pagination iterator
  • Request batching for bulk operations

Error Handling

PatternWhen to Use
SingletonAlways - ensures single client instance
RetryNetwork errors, 429/500 responses
PaginationLarge result sets (>100 records)
BatchingMultiple enrichment calls
Custom ErrorsDistinguish error types in catch blocks

Resources

Next Steps

Proceed to apollo-core-workflow-a for lead search implementation.