Utvikler

Utviklervennlig API

Cardflos API er utviklet med tanke på utviklere, og prioriterer brukervennlighet, omfattende dokumentasjon og robust funksjonalitet. Dette sikrer en smidig integrasjonsprosess, slik at teamet ditt raskt kan distribuere og administrere betalingsløsninger.

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Utvikler
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Oversikten

A developer-friendly API serves as the primary interface between a merchant's digital infrastructure and the broader payments ecosystem. In the B2B sector, this means providing RESTful endpoints that allow for the programmatic execution of authorisations, captures, and refunds.

The architecture must account for complex data structures required by Card-Not-Present transactions, including 3DS metadata and Level 2 or Level 3 purchase details.

Effective API design prioritises idempotent requests to prevent duplicate transactions and utilises standard HTTP status codes to communicate the state of a request.

Beyond simple payment processing, these interfaces facilitate the management of recurring billing schedules, vaulting of tokenised credentials, and the retrieval of settlement reports.

By integrating directly at the API level, businesses can maintain full control over the checkout experience while delegating sensitive data handling to a PCI-DSS compliant environment. This structural approach reduces technical debt and ensures that backend systems remain synchronised with the acquirer's ledger.

Slik fungerer det

  1. Authentication and Credential Security

    The integration begins by authenticating requests using secret keys or OAuth tokens transmitted over TLS. Developers configure webhooks to receive asynchronous notifications for events such as successful settlements or dispute initiations.

    This ensures that the merchant's internal database stays aligned with the status of every transaction without constant polling of the server.

  2. Request Construction and Validation

    Developers construct JSON payloads containing transaction amounts, currency codes, and payment instrument details. The API validates these inputs against schema requirements before attempting authorisation.

    Detailed validation errors are returned immediately if mandatory fields, such as the CVV or account holder name, are missing or incorrectly formatted for the specific MCC.

  3. Idempotency and Resilience Testing

    To handle network instability, the API employs idempotency keys. If a request is retried due to a timeout, the system recognises the unique key and returns the original response rather than creating a duplicate charge.

    This logic is typically verified within a sandbox environment using simulated response codes for various scenarios.

  4. Response Handling and Error Mapping

    Upon receiving a response from the issuer, the API maps complex bank response codes into standardised, actionable categories.

    Developers use these categorised codes to trigger specific workflows, such as prompting the user for a different payment method after a hard decline or initiating a 3DS challenge for a soft decline.

Hvorfor det er viktig

Reduced Integration Latency

Well-structured APIs with comprehensive documentation and native SDKs allow engineering teams to move from initial configuration to a functional sandbox in a shorter timeframe. By providing clear definitions for every endpoint and field, the need for back-and-forth support queries is minimised.

This efficiency ensures that payment logic can be deployed alongside core product features without becoming a bottleneck for the broader development lifecycle.

Operational Stability and Debugging

Detailed logging and transparent error messaging are critical for maintaining high uptime in production environments. When an API provides granular feedback on why a transaction failed, such as specific BIN-related restrictions or SCA requirements, developers can automate the appropriate response.

This reduces the manual overhead for finance and support teams who would otherwise need to investigate vague decline reasons via an acquirer portal.

Scalable Payment Architecture

As a business expands into new markets or adopts new business models, a flexible API allows for the addition of alternative payment methods and multi-currency support without rewriting the entire integration.

Standardised objects for customers, subscriptions, and payment methods allow developers to build modular systems that can adapt to changing regulatory requirements like PSD3 or evolving scheme rules from Visa and Mastercard.

Bruksområder

SaaS Subscription Scaling

Technical teams at SaaS firms use the API to automate complex dunning cycles and subscription upgrades. Programmatic access to the vault allows for seamless billing shifts as customers change tiers.

Marketplace Payout Automation

Marketplace platforms integrate APIs to split payments between vendors and calculate commissions in real-time. This ensures that KYB-verified sub-merchants receive settlements according to their specific contractual terms.

Custom Mobile Checkout

Mobile developers use specific SDKs to build bespoke checkout flows that trigger 3DS authentication natively. This maintains brand consistency while ensuring sensitive card data never touches the merchant's own servers.

ERP System Synchronisation

Large enterprises connect their ERP systems directly to the payments API to automate bank reconciliation. Transaction metadata is used to close out open invoices automatically upon receiving a settlement notification.

I tall

40–60%
Integration Time Reduction

Typical efficiency gains reported by engineering teams when switching from legacy SOAP interfaces to modern RESTful APIs with comprehensive SDKs.

<200ms
API Response Latency

The standard industry benchmark for gateway overhead per request, excluding downstream latency introduced by the card networks and issuing banks.

99.99%
Successful Idempotency Match

The observed reliability rate for preventing duplicate transactions in high-volume environments where network retries are common.

Ready to route with Utviklervennlig API?

Talk to our team about a live rollout on your acquiring stack.

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Hva du får med Utviklervennlig API

  • Klar, konsis og oppdatert API-dokumentasjon.
  • Flere SDK-er (Python, Ruby, Node.js, PHP, Java) for populære språk.
  • Sandkasse-miljø for testing og utvikling uten live-transaksjoner.
  • Konsistent API-design for forutsigbare og intuitive interaksjoner.
  • Detaljerte feilkoder og meldinger for effektiv feilsøking.
  • Responsiv utviklerstøtte for integrasjonshjelp.
  • Standardised error objects with specific codes and human-readable messages for rapid troubleshooting.
  • Versioned API releases to ensure backward compatibility and controlled migration to new features.
  • PCI-compliant tokenisation endpoints to minimise the scope of annual security audits and assessments.
  • Support for custom metadata fields to facilitate easier reconciliation with internal business intelligence tools.
See Utviklervennlig API on your acquiring stack.

A short scoping call, then a written plan for your MIDs.

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Spørsmål om Utviklervennlig API

Hvilke ressurser er tilgjengelige for utviklere?

Cardflo tilbyr omfattende API-dokumentasjon, inkludert eksempler på forespørsler og svar, autentiseringsguider og bruksscenarier. Vi tilbyr også SDK-er for populære programmeringsspråk og et dedikert sandkassemiljø for testing av integrasjoner uten å påvirke live-data eller midler.

Hvordan får jeg støtte under integrering?

Utviklere kan få tilgang til støtte via vår dedikerte tekniske dokumentasjon, fellesskapsfora og direkte e-poststøttekanaler. Vårt team av erfarne ingeniører er tilgjengelig for å hjelpe med integreringsspørsmål, feilsøking og veiledning om beste praksis for å sikre vellykket distribusjon.

Er API-et konsistent på tvers av ulike betalingsfunksjoner?

Ja, Cardflos API opprettholder en konsistent struktur og navnekonvensjoner på tvers av alle endepunktene. Denne ensartetheten reduserer læringskurven for utviklere, noe som gjør det enklere å integrere ulike betalingsfunksjoner, fra transaksjonsbehandling til abonnementsadministrasjon, med forutsigbare resultater.

How are error codes structured for debugging purposes?

Errors are returned using standard HTTP status codes combined with a JSON body containing a specific error type and code. For example, a 400 Bad Request might include a code for 'invalid_cvv', while a 402 Payment Required might indicate a 'card_declined' event from the issuer.

This hierarchy allows developers to distinguish between client-side integration issues, such as missing parameters, and downstream financial issues, such as insufficient funds, allowing for automated and specific error handling in the user interface.

What security measures protect the API from unauthorised access?

Security is maintained through a multi-layered approach starting with mandatory TLS 1. 2 or higher for all communication.

Authentication is managed via API keys which should be restricted to server-side calls to prevent exposure in client-side code. Additionally, IP whitelisting can be configured for sensitive endpoints, and webhooks are often signed with a cryptographic signature.

This allows the merchant's server to verify that the notification truly originated from the payments gateway and has not been tampered with in transit.

Does the API support custom metadata for reconciliation?

The API allows for the inclusion of custom metadata objects within payment and customer resources. Developers can attach internal identifiers, such as invoice numbers or customer IDs from an external CRM, to the transaction record.

This metadata is not passed to the card schemes but remains associated with the transaction within the gateway and reporting systems. This facilitates automated reconciliation, as these identifiers can be retrieved via the API or included in scheduled CSV settlement exports.

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