Best Custody Insurance Providers 2025

Research

Best Custody Insurance Providers (2025)

Compare the top crypto custody insurance providers, coverage types, and capacity—then pick the right partner for your stack.

Sam Monac

7 min

Why Custody Insurance Matters in September 2025

Institutions now hold billions in digital assets, and regulators expect professional risk transfer—not promises. Custody insurance providers bridge the gap by transferring losses from theft, key compromise, insider fraud, and other operational failures to regulated carriers and markets. In one line: custody insurance is a specialized policy that helps institutions recover financial losses tied to digital assets held in custody (cold, warm, or hot) when defined events occur. As spot ETF flows and bank re-entries accelerate, boards want auditable coverage, clear exclusions, and credible capacity. This guide highlights who actually writes, brokers, and structures meaningful digital-asset custody insurance in 2025, and how to pick among them. Secondary considerations include capacity, claims handling, supported custody models, and regional eligibility across Global, US, EU, and APAC.

How We Picked (Methodology & Scoring)

Scale/Liquidity (30%) — demonstrated capacity, panel depth (carriers/reinsurers/markets), and limits available for custody crime/specie.
Security & Underwriting Rigor (25%) — due diligence on key management, operational controls, audits, and loss prevention expectations.
Coverage Breadth (15%) — hot/warm/cold support, staking/slashing riders, social-engineering, wallet recovery, smart-contract add-ons.
Costs (15%) — indicative premiums/deductibles vs. limits; structure efficiency (excess, towers, programs).
UX (10%) — clarity of wordings, onboarding guidance, claims transparency.
Support (5%) — global service footprint, specialist teams (DART/crypto units), and education resources.

We prioritized official product/security pages, disclosures, and market directories; third-party datasets were used only for cross-checks. Last updated September 2025.

Top 10 Custody Insurance Providers in September 2025

1. Evertas — Best for Dedicated Crypto Crime & Custody Cover

Why Use It: Evertas is a specialty insurer focused on crypto, offering A-rated crime/specie programs tailored to cold, warm, and hot storage with practitioner-level key-management scrutiny. Their policies target the operational realities of custodians and platforms, not just generic cyber forms.
Best For: Qualified custodians, exchanges, trustees, prime brokers.
Notable Features:

Crime/specie coverage across storage tiers.
Crypto-native underwriting of private-key processes.
Lloyd’s-backed capacity with global reach. Consider If: You need a crypto-first insurer vs. a generalist broker.
Alternatives: Marsh, Canopius.

Regions: Global.

2. Coincover — Best for Warranty-Backed Protection & Wallet Recovery

Why Use It: Coincover provides proactive fraud screening, disaster recovery for wallets, and warranty-backed protection that can sit alongside traditional insurance programs—useful for fintechs and custodians embedding safety into UX. Lloyd’s syndicates partnered with Coincover to launch wallet coverage initiatives. Best For: B2B platforms, fintechs, MPC vendors, exchanges seeking embedded protection.
Notable Features:

Real-time outbound transaction screening.
Wallet recovery and disaster-recovery tooling.
Warranty-backed protection that “makes it right” on covered failures. Consider If: You want prevention + recovery layered with traditional insurance.
Alternatives: Evertas, Marsh.

Regions: Global.

3. Marsh (DART) — Best Global Broker for Building Towers

Why Use It: Marsh’s Digital Asset Risk Transfer team is a top broker for structuring capacity across crime/specie/D&O and connecting clients to specialist markets. They also advertise dedicated solutions for theft of digital assets held by institutions. Best For: Large exchanges, custodians, ETF service providers, banks.
Notable Features:

Specialist DART team and market access.
Program design across multiple lines (crime/specie/E&O).
Solutions aimed at institutional theft protection. Consider If: You need a broker to source multi-carrier, multi-region capacity.
Alternatives: Aon, Lloyd’s Market.

Regions: Global.

4. Aon — Best for Custody Assessments + Crime/Specie Placement

Why Use It: Aon’s digital-asset practice brokers crime/specie, D&O, E&O, and cyber, and offers custody assessments and loss-scenario modeling—useful for underwriting readiness and board sign-off. Best For: Banks entering custody, prime brokers, tokenization platforms.
Notable Features:

Crime & specie for theft of digital assets.
Custody assessments and PML modeling.
Cyber/E&O overlays for staking and smart-contract exposure. Consider If: You want pre-underwriting hardening plus market reach.
Alternatives: Marsh, Evertas.

Regions: Global.

5. Munich Re — Best for Reinsurance-Backed Crime & Staking Risk

Why Use It: As a top global reinsurer, Munich Re provides digital-asset crime policies designed for professional custodians and platforms, with coverage spanning external hacks, employee fraud, and certain third-party breaches—often supporting primary carriers. Best For: Carriers building programs; large platforms needing robust backing.
Notable Features:

Comprehensive crime policy for custodians and trading venues.
Options for staking and smart-contract risks.
Capacity and technical guidance at program level. Consider If: You’re assembling a tower requiring reinsurance strength.
Alternatives: Lloyd’s Market, Canopius.

Regions: Global.

6. Lloyd’s Market — Best Marketplace to Source Specialist Syndicates

Why Use It: Lloyd’s is a global specialty market where syndicates (e.g., Atrium) have launched crypto wallet/custody solutions, often in partnership with firms like Coincover. Access via brokers to build bespoke custody crime/specie programs with flexible limits. Best For: Firms needing bespoke wording and multi-syndicate capacity.
Notable Features:

Marketplace access to expert underwriters.
Wallet/custody solutions pioneered by syndicates.
Adjustable limits and layered structures. Consider If: You use a broker (Marsh/Aon) to navigate syndicates.
Alternatives: Munich Re (reinsurance), Canopius.

Regions: Global.

7. Canopius — Best Carrier for Cross-Class Custody (Crime/Specie/Extortion)

Why Use It: Canopius underwrites digital-asset custody coverage and has launched cross-class products (crime/specie/extortion). They’re also active in APAC via Lloyd’s Asia and have public case studies on large Asian capacity deployments. Best For: APAC custodians, global platforms seeking single-carrier leadership.
Notable Features:

Digital-asset custody product on Lloyd’s Asia.
Cross-class protection with extortion elements.
Demonstrated large committed capacity in Hong Kong. Consider If: You want a lead carrier with APAC presence.
Alternatives: Lloyd’s Market, Evertas.

Regions: Global/APAC.

8. Relm Insurance — Best Specialty Carrier for Digital-Asset Businesses

Why Use It: Bermuda-based Relm focuses on emerging industries including digital assets, offering tailored specialty programs and partnering with web3 security firms. Useful for innovative custody models needing bespoke underwriting. Best For: Web3 platforms, custodians with non-standard architectures.
Notable Features:

Digital-asset specific coverage and insights.
Partnerships with cyber threat-intel providers.
Bermuda specialty flexibility for novel risks. Consider If: You need bespoke terms for unique custody stacks.
Alternatives: Evertas, Canopius.

Regions: Global (Bermuda-domiciled).

9. Breach Insurance — Best for Exchange/Platform Embedded Coverage

Why Use It: Breach builds regulated crypto insurance products like Crypto Shield for platforms and investors, and offers institutional “Crypto Shield Pro” and platform-embedded options—useful for exchanges and custodians seeking retail-facing coverage. Best For: Exchanges, retail platforms, SMB crypto companies.
Notable Features:

Regulated products targeting custody at qualified venues.
Institutional policy options (Pro).
Wallet risk assessments to prep for underwriting. Consider If: You want customer-facing protection aligned to your stack.
Alternatives: Coincover, Aon.

Regions: US/Global.

10. Chainproof — Best Add-On for Smart-Contract/Slashing Risks

Why Use It: While not a custody crime policy, Chainproof (incubated by Quantstamp; reinsured backing) offers regulated insurance for smart contracts and slashing—valuable as an adjunct when custodians support staking or programmatic flows tied to custody. Best For: Custodians/exchanges with staking, DeFi integrations, or on-chain workflows.
Notable Features:

Regulated smart-contract and slashing insurance.
Backing and provenance via Quantstamp ecosystem.
Bermuda regulatory progress noted in 2024-25. Consider If: You need to cover the on-chain leg alongside custody.
Alternatives: Munich Re (staking), Marsh.

Regions: Global.

Decision Guide: Best By Use Case

Regulated U.S. programs & towers: Marsh, Aon, Lloyd’s Market.
Crypto-native underwriting: Evertas.
APAC leadership capacity: Canopius (Lloyd’s Asia).
Embedded protection/wallet recovery: Coincover.
Reinsurance strength for large towers: Munich Re.
Retail/platform-facing add-ons: Breach Insurance.
On-chain/Slashing riders: Chainproof.
Specialty/innovative risk placements: Relm Insurance.

How to Choose the Right Custody Insurance (Checklist)

Confirm eligible regions/regulators (US/EU/APAC) and your entity domicile.
Map storage tiers (cold/warm/hot/MPC) to coverage and sub-limits.
Validate wordings/exclusions (internal theft, collusion, social engineering, vendor breaches).
Align limits/deductibles with AUM, TVL, and worst-case loss scenarios.
Ask for claims playbooks and incident response timelines.
Review audits & controls (SOC 2, key ceremonies, disaster recovery).
Query reinsurance backing and panel stability.
Red flags: vague wordings; “cyber-only” policies for custody crime; no clarity on key compromise.

Use Token Metrics With Any Custody Insurance Provider

AI Ratings to vet venues and counterparties you work with.

Narrative Detection to identify risk-on/off regimes impacting exposure.

Portfolio Optimization to size custody-related strategies.

Alerts/Signals to monitor market stress that could correlate with loss events.
Workflow: Research → Select provider via broker → Bind coverage → Operate and monitor with Token Metrics alerts.

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Security & Compliance Tips

Enforce MPC/hardware-isolated keys and dual-control operations.
Use 2FA, withdrawal whitelists, and policy controls across org accounts.
Keep KYC/AML and sanctions screening current for counterparties.
Practice RFQ segregation and least-privilege for ops staff.
Run tabletop exercises for incident/claims readiness.

This article is for research/education, not financial advice.

Beginner Mistakes to Avoid

Assuming cyber insurance = custody crime coverage.
Buying limits that don’t match hot-wallet exposure.
Skipping vendor-risk riders for sub-custodians and wallet providers.
Not documenting key ceremonies and access policies.
Waiting until after an incident to engage a broker/insurer.

FAQs

What does crypto custody insurance cover?
Typically theft, key compromise, insider fraud, and sometimes extortion or vendor breaches under defined conditions. Coverage varies widely by wording; verify hot/warm/cold definitions and exclusions.

Do I need both crime and specie?
Crime commonly addresses employee dishonesty and external theft; specie focuses on physical loss/damage to assets in secure storage. Many carriers blend elements for digital assets—ask how your program handles each.

Can staking be insured?
Yes—some reinsurers/insurers offer staking/slashing riders or separate policies; smart-contract risk often requires additional cover like Chainproof.

How much capacity is available?
Depends on controls and market appetite. Lloyd’s syndicates and reinsurers like Munich Re can support sizable towers when risk controls are strong.

How do I reduce premiums?
Improve key-management controls, segregate duties, minimize hot exposure, complete independent audits, and adopt continuous monitoring/fraud screening (e.g., Coincover-style prevention).

Are exchanges’ “insured” claims enough?
Not always—check if coverage is platform-wide, per-customer, warranty-backed, or contingent. Ask for wordings, limits, and who the named insureds are.

Conclusion + Related Reads

If you need a crypto-first insurer, start with Evertas. Building a global tower? Engage Marsh or Aon across the Lloyd’s Market and reinsurers like Munich Re. For APAC-localized capacity, consider Canopius; for embedded protection, weigh Coincover or Breach. Add Chainproof if staking/DeFi exposure touches custody workflows.

Related Reads:

Best Cryptocurrency Exchanges 2025
Top Derivatives Platforms 2025
Top Institutional Custody Providers 2025

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How Modern Web APIs Power Connected Apps

Token Metrics Team

APIs are the connective tissue of modern software: they expose functionality, move data, and enable integrations across services, devices, and platforms. A well-designed web API shapes developer experience, system resilience, and operational cost. This article breaks down core concepts, common architectures, security and observability patterns, and practical steps to build and maintain reliable web APIs without assuming a specific platform or vendor.

What is a Web API and why it matters

A web API (Application Programming Interface) is an HTTP-accessible interface that lets clients interact with server-side functionality. APIs can return JSON, XML, or other formats and typically define a contract of endpoints, parameters, authentication requirements, and expected responses. They matter because they enable modularity: front-ends, mobile apps, third-party integrations, and automation tools can all reuse the same backend logic.

When evaluating or designing an API, consider the consumer experience: predictable endpoints, clear error messages, consistent versioning, and comprehensive documentation reduce onboarding friction for integrators. Think of an API as a public product: its usability directly impacts adoption and maintenance burden.

Design patterns and architectures

There are several architectural approaches to web APIs. RESTful (resource-based) design emphasizes nouns and predictable HTTP verbs. GraphQL centralizes query flexibility into a single endpoint and lets clients request only the fields they need. gRPC is used for low-latency, binary RPC between services.

Key design practices:

Model your resources to reflect domain concepts; avoid ad-hoc endpoints that duplicate behavior.
Keep contracts stable and use semantic versioning or evolving schema techniques (e.g., deprecation headers, feature flags) to handle changes.
Document thoroughly using OpenAPI/Swagger, GraphQL schemas, or similar—machine-readable specs enable client generation and automated testing.

Choose the pattern that aligns with your performance, flexibility, and developer ergonomics goals, and make that decision explicit in onboarding docs.

Security, authentication, and rate limiting

Security must be built into an API from day one. Common controls include TLS for transport, OAuth 2.0 / OpenID Connect for delegated authorization, API keys for service-to-service access, and fine-grained scopes for least-privilege access. Input validation, output encoding, and strict CORS policies guard against common injection and cross-origin attacks.

Operational protections such as rate limiting, quotas, and circuit breakers help preserve availability if a client misbehaves or a downstream dependency degrades. Design your error responses to be informative to developers but avoid leaking internal implementation details. Centralized authentication and centralized secrets management (vaults, KMS) reduce duplication and surface area for compromise.

Performance, monitoring, and testing

Performance considerations span latency, throughput, and resource efficiency. Use caching (HTTP cache headers, CDN, or in-memory caches) to reduce load on origin services. Employ pagination, partial responses, and batch endpoints to avoid overfetching. Instrumentation is essential: traces, metrics, and logs help correlate symptoms, identify bottlenecks, and measure SLAs.

Testing should be layered: unit tests for business logic, contract tests against API schemas, integration tests for end-to-end behavior, and load tests that emulate real-world usage. Observability tools and APMs provide continuous insight; AI-driven analytics platforms such as Token Metrics can help surface unusual usage patterns and prioritize performance fixes based on impact.

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What is the difference between REST and GraphQL?

REST exposes multiple endpoints that represent resources and rely on HTTP verbs for operations. It is simple and maps well to HTTP semantics. GraphQL exposes a single endpoint where clients request precisely the fields they need, which reduces overfetching and can simplify mobile consumption. GraphQL adds complexity in query planning and caching; choose based on client needs and team expertise.

How should I approach API versioning?

Prefer backward-compatible changes over breaking changes. Use semantic versioning for major releases, and consider header-based versioning or URI version prefixes when breaking changes are unavoidable. Maintain deprecation schedules and communicate timelines in documentation and response headers so clients can migrate predictably.

Which authentication method is best for my API?

OAuth 2.0 and OpenID Connect are standard for delegated access and single-sign-on. For machine-to-machine communication, use short-lived tokens issued by a trusted authorization server. API keys can be simple to implement but should be scoped, rotated regularly, and never embedded in public clients without additional protections.

How do I test and monitor an API in production?

Implement synthetic monitoring for critical endpoints, collect real-user metrics (latency percentiles, error rates), and instrument distributed tracing to follow requests across services. Run scheduled contract tests against staging and production-like environments, and correlate incidents with deployment timelines and dependency health.

How do I design for backward compatibility?

Make additive, non-breaking changes where possible: add new fields rather than changing existing ones, and preserve default behaviors. Document deprecated fields and provide feature flags to gate new behavior. Maintain versioned client libraries to give consumers time to upgrade.

Disclaimer

This article is educational and technical in nature. It does not provide legal, financial, or investment advice. Implementations should be evaluated with respect to security policies, compliance requirements, and operational constraints specific to your organization.

Research

API Endpoint Essentials: Design, Security & Tips

Token Metrics Team

APIs power modern software by exposing discrete access points called endpoints. Whether you re integrating a third-party data feed, building a microservice architecture, or wiring a WebSocket stream, understanding what an api endpoint is and how to design, secure, and monitor one is essential for robust systems.

What is an API endpoint and how it works

An api endpoint is a network-accessible URL or address that accepts requests and returns responses according to a protocol (usually HTTP/HTTPS or WebSocket). Conceptually, an endpoint maps a client intent to a server capability: retrieve a resource, submit data, or subscribe to updates. In a RESTful API, endpoints often follow noun-based paths (e.g., /users/123) combined with HTTP verbs (GET, POST, PUT, DELETE) to indicate the operation.

Key technical elements of an endpoint include:

URI pattern (path and optional query parameters)
Supported methods (verbs) and expected payloads
Authentication and authorization requirements
Response format and status codes
Rate limiting and throttling rules

Endpoints can be public (open to third parties) or private (internal to a service mesh). For crypto-focused data integrations, api endpoints may also expose streaming interfaces (WebSockets) or webhook callbacks for asynchronous events. For example, Token Metrics is an example of an analytics provider that exposes APIs for research workflows.

Types of endpoints and common protocols

Different application needs favor different endpoint types and protocols:

REST endpoints (HTTP/HTTPS): Simple, stateless, and cache-friendly, ideal for resource CRUD operations and broad compatibility.
GraphQL endpoints: A single endpoint that accepts queries allowing clients to request exactly the fields they need; reduces overfetching but requires careful schema design and complexity control.
WebSocket endpoints: Bidirectional, low-latency channels for streaming updates (market data, notifications). Useful when real-time throughput matters.
Webhook endpoints: Server-to-server callbacks where your service exposes a publicly accessible endpoint to receive event notifications from another system.

Choosing a protocol depends on consistency requirements, latency tolerance, and client diversity. Hybrid architectures often combine REST for configuration and GraphQL/WebSocket for dynamic data.

Design best practices for robust API endpoints

Good endpoint design improves developer experience and system resilience. Follow these practical practices:

Clear and consistent naming: Use predictable URI patterns and resource-oriented paths. Avoid action-based endpoints like /getUserData in favor of /users/{id}.
Versioning: Expose versioned endpoints (e.g., /v1/users) to avoid breaking changes for consumers.
Input validation: Validate payloads early and return explicit error codes and messages to guide client correction.
Pagination and filtering: For list-heavy endpoints, require pagination tokens or limits to protect backend resources.
Documentation and examples: Provide schema samples, curl examples, and expected response bodies to accelerate integration.

API schema tools (OpenAPI/Swagger, AsyncAPI) let you define endpoints, types, and contracts programmatically, enabling automated client generation, testing, and mock servers during development.

Security, rate limits, and monitoring

Endpoints are primary attack surfaces. Security and observability are critical:

Authentication & Authorization: Prefer token-based schemes (OAuth2, JWT) with granular scopes. Enforce least privilege for each endpoint.
Transport security: Enforce TLS, HSTS, and secure ciphers to protect data in transit.
Rate limiting & quotas: Apply per-key and per-IP limits to mitigate abuse and preserve quality of service.
Input sanitization: Prevent injection attacks by whitelisting allowed fields and escaping inputs.
Observability: Emit structured logs, traces, and metrics per endpoint. Monitor latency percentiles, error rates, and traffic patterns to detect regressions early.

Operational tooling such as API gateways, service meshes, and managed API platforms provide built-in policy enforcement for security and rate limiting, reducing custom code complexity.

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What is the difference between an api endpoint and an API?

An API is the overall contract and set of capabilities a service exposes; an api endpoint is a specific network address (URI) where one of those capabilities is accessible. Think of the API as the menu and endpoints as the individual dishes.

How should I secure a public api endpoint?

Use HTTPS only, require authenticated tokens with appropriate scopes, implement rate limits and IP reputation checks, and validate all input. Employ monitoring to detect anomalous traffic patterns and rotate credentials periodically.

When should I version my endpoints?

Introduce explicit versioning when you plan to make breaking changes to request/response formats or behavior. Semantic versioning in the path (e.g., /v1/) is common and avoids forcing clients to adapt unexpectedly.

What are effective rate-limiting strategies?

Combine per-key quotas, sliding-window or token-bucket algorithms, and burst allowances. Communicate limits via response headers and provide clear error codes and retry-after values so clients can back off gracefully.

Which metrics should I monitor for endpoints?

Track request rate (RPS), error rate (4xx/5xx), latency percentiles (p50, p95, p99), and active connections for streaming endpoints. Correlate with upstream/downstream service metrics to identify root causes.

When is GraphQL preferable to REST for endpoints?

Choose GraphQL when clients require flexible field selection and you want to reduce overfetching. Prefer REST for simple resource CRUD patterns and when caching intermediaries are important. Consider team familiarity and tooling ecosystem as well.

Disclaimer

The information in this article is technical and educational in nature. It is not financial, legal, or investment advice. Implementations should be validated in your environment and reviewed for security and compliance obligations specific to your organization.

Research

Understanding REST APIs: A Practical Guide

Token Metrics Team

Modern web and mobile apps exchange data constantly. At the center of that exchange is the REST API — a widely adopted architectural style that standardizes how clients and servers communicate over HTTP. Whether you are a developer, product manager, or researcher, understanding what a REST API is and how it works is essential for designing scalable systems and integrating services efficiently.

What is a REST API? Core principles

A REST API (Representational State Transfer Application Programming Interface) is a style for designing networked applications. It defines a set of constraints that, when followed, enable predictable, scalable, and loosely coupled interactions between clients (browsers, mobile apps, services) and servers. REST is not a protocol or standard; it is a set of architectural principles introduced by Roy Fielding in 2000.

Key principles include:

Statelessness: Each request from the client contains all information needed; the server does not store client session state between requests.
Resource orientation: Everything is modeled as a resource (users, orders, posts), each identified by a URI (Uniform Resource Identifier).
Uniform interface: A standard set of operations (typically HTTP methods) operate on resources in predictable ways.
Client-server separation: Clients and servers can evolve independently as long as the interface contract is maintained.
Cacheability: Responses can be labeled cacheable or non-cacheable to improve performance and scalability.

How REST APIs work: HTTP methods, status codes, and endpoints

A REST API organizes functionality around resources and uses standard HTTP verbs to manipulate them. Common conventions are:

GET — retrieve a resource or list of resources.
POST — create a new resource under a collection.
PUT — replace an existing resource or create if absent (idempotent).
PATCH — apply partial updates to a resource.
DELETE — remove a resource.

Responses use HTTP status codes to indicate result state (200 OK, 201 Created, 204 No Content, 400 Bad Request, 401 Unauthorized, 404 Not Found, 500 Internal Server Error). Payloads are typically JSON but can be XML or other formats. Endpoints are structured hierarchically, for example: /api/users to list users, /api/users/123 to operate on user with ID 123.

Design patterns and best practices for reliable APIs

Designing a robust REST API involves more than choosing verbs and URIs. Adopt patterns that make APIs understandable, maintainable, and secure:

Consistent naming: Use plural resource names (/products, /orders), and keep endpoints predictable.
Versioning: Expose versions (e.g., /v1/) to avoid breaking clients when changing the contract.
Pagination and filtering: For large collections, support parameters for page size, cursors, and search filters to avoid large responses.
Error handling: Return structured error responses with codes and human-readable messages to help client debugging.
Rate limiting and throttling: Protect backends by limiting request rates and providing informative headers.
Security: Use TLS, authenticate requests (OAuth, API keys), and apply authorization checks per resource.

Following these practices improves interoperability and reduces operational risk.

Use cases, tools, and how to test REST APIs

REST APIs are used across web services, microservices, mobile backends, IoT devices, and third-party integrations. Developers commonly use tools and practices to build and validate APIs:

API specifications: OpenAPI (formerly Swagger) describes endpoints, parameters, responses, and can be used to generate client/server code and documentation.
Testing tools: Postman, curl, and automated test frameworks (JUnit, pytest) validate behavior, performance, and regression checks.
Monitoring and observability: Logs, distributed tracing, and metrics (latency, error rates) help identify issues in production.
Client SDKs and code generation: Generate typed clients for multiple languages to reduce integration friction.

AI-driven platforms and analytics can speed research and debugging by surfacing usage patterns, anomalies, and integration opportunities. For example, Token Metrics can be used to analyze API-driven data feeds and incorporate on-chain signals into application decision layers without manual data wrangling.

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FAQ: What is REST API — common questions

What is the difference between REST and RESTful?

"REST" refers to the architectural constraints described by Roy Fielding; "RESTful" is a colloquial adjective meaning an API that follows REST principles. Not all APIs labeled RESTful implement every REST constraint strictly.

How does REST compare to SOAP and GraphQL?

SOAP is a protocol with rigid standards and built-in operations (often used in enterprise systems). GraphQL exposes a single endpoint and lets clients request precise data shapes. REST uses multiple endpoints and standard HTTP verbs. Each approach has trade-offs in flexibility, caching, and tooling.

When should I version my REST API?

Version your API before making breaking changes to request/response formats or behavior that existing clients depend on. Common strategies include URI versioning (e.g., /v1/) or header-based versioning.

Are REST APIs secure by default?

No. Security must be designed in: use HTTPS/TLS, authenticate requests, validate input, apply authorization checks, and limit rate to reduce abuse. Treat REST APIs like any other public interface that requires protection.

How do I test and document a REST API effectively?

Use API specifications (OpenAPI) to auto-generate docs and client stubs. Combine manual testing tools like Postman with automated integration and contract tests in CI pipelines to ensure consistent behavior across releases.

Can REST APIs handle streaming or real-time data?

REST is request/response oriented and not ideal for continuous real-time streams. For streaming, consider WebSockets, Server-Sent Events (SSE), or specialized protocols; REST can still be used for control operations and fallbacks.

Disclaimer: This article is educational and technical in nature. It does not provide investment or legal advice. The information is intended to explain REST API concepts and best practices, not to recommend specific products or actions.

Token Metrics Media LLC is a regular publication of information, analysis, and commentary focused especially on blockchain technology and business, cryptocurrency, blockchain-based tokens, market trends, and trading strategies.

Token Metrics Media LLC does not provide individually tailored investment advice and does not take a subscriber’s or anyone’s personal circumstances into consideration when discussing investments; nor is Token Metrics Advisers LLC registered as an investment adviser or broker-dealer in any jurisdiction.

Information contained herein is not an offer or solicitation to buy, hold, or sell any security. The Token Metrics team has advised and invested in many blockchain companies. A complete list of their advisory roles and current holdings can be viewed here: https://tokenmetrics.com/disclosures.html/

Token Metrics Media LLC relies on information from various sources believed to be reliable, including clients and third parties, but cannot guarantee the accuracy and completeness of that information. Additionally, Token Metrics Media LLC does not provide tax advice, and investors are encouraged to consult with their personal tax advisors.

All investing involves risk, including the possible loss of money you invest, and past performance does not guarantee future performance. Ratings and price predictions are provided for informational and illustrative purposes, and may not reflect actual future performance.

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