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Version Control

VersionDateAuthorComments
4.0-draft7 OB R/W API Team

4.0-draft7 changes:

  • Updated the description for Status Code 403 Forbidden to suggest - "Re-authenticating the PSU may result in an appropriate token that may be used." to cater Re-Authentication scenarios.
  • Removed reference to Open Banking Security Profile - Implementer's Draft 1.1.2
  • Updated the version of FAPI read & Write API Security Profile to ID2
  • Changes for alignment with FAPI Implementer's Draft 2
    • Replace references of `x-fapi-customer-last-logged-time` to `x-fapi-auth-date`
    • Remove references of x-fapi-financial-id
  • Added description of how an id_token_hint can be used to re-identify a PSU
3.1.2-RC1 OB R/W API Team

3.1.2-RC1 changes:

  • Changed header application/jwe to application/jose+jwe and added guidance
  • Change reference to CIBA specification and it is no longer part of MODRNA
  • Removed the CIBA Infobox - "The CIBA profile is under active development by members of the FAPI working group, and the first implementers' draft is due to be published shortly. However, at the time of writing the Read/Write API specification, the CIBA profile lacks full implementation detail and is optional for implementation by ASPSPs. The CIBA flows have been included since the v3.0 Read/Write API specification as forward guidance on how decoupled flows may be implemented in the future once the full CIBA profile is published."
  • Updated "Identifying the PSU" with examples and a better description.
  • Clarified that a consent must be created before starting a CIBA flow and the intent id must be passed to the bc-authorize end-point.
  • Clarified that an id_token_hint will result in the generation of a new id_token bound to a different intent_id
  • Release version renamed to 3.1.2
3.1.2 OB R/W API Team3.1.2 final release. No change from RC1

Overview

The Read/Write Data API Specification provides a description of the elements that are common across all the Read/Write Data APIs.

This specification should be read in conjunction with the individual Read/Write API Specifications for:

Child pages (Children Display)

This specification should be read in conjunction with the Customer Experience Guidelines and Management Information Requirements. Together these form the OBIE standard, which should enable any ASPSP which implements the specification to meet their obligations under both the CMA Order and PSD2/RTS. 

The key difference between the CMA Order and PSD2/RTS requirements relate to which product types are implemented, and the timing for implementation. For example, the CMA Order requires the CMA9 to implement the standard for PCA and BCA accounts earlier (in some cases) than the PSD2/RTS timelines. The timings are defined in the Open Banking Roadmap (https://www.openbanking.org.uk/wp-content/uploads/Open-Banking-Revised-Roadmap-July-2018.pdf).

Document Structure

This document consists of the following parts:

Overview: Provides an overview of the scope of the API and the key decisions and principles that contributed to the specification.

Basics: The section begins with an introduction to how the APIs are used.

Security & Access Control: Specifies the means for TPPs and PSUs to authenticate themselves and provide consent.

Data Model: Describes the data model for the API payloads.

Known Issues

This document and its sub-pages must be read in conjunction with the Known Issues.

Design Principles

RESTful APIs

The API adheres to RESTful API concepts where possible and sensible to do so.

However, the priority is to have an API that is simple to understand and easy to use. In instances where following RESTful principles would be convoluted and complex, the principles have not been followed.

References:

  • The highest level Data Description Language used is the JSON Schema : http://json-schema.org/
  • Best Practice has also been taken from the Data Description Language for APIs; JSON API : http://jsonapi.org/
  • The Interface Description Language used is the Swagger Specification version 2.0 (also known as Open API) : http://swagger.io/ 
    Github link macro
    linkhttps://github.com/OAI/OpenAPI-Specification
     

Standards

The OBIE principles for developing API standards:

  • OBIE will adopt existing standards where relevant/appropriate to minimise re-inventing the wheel.
  • The Standards currently being reviewed include ISO20022 and FAPI.
  • OBIE will favour developer/user experience over and above adoption of existing Standards, in order to create a more future proof Standard.
  • OBIE will work with other relevant bodies to align with, contribute to and/or adopt other Standards work, especially relating to creation of Standards around APIs and JSON payloads.

ISO 20022

The CMA Order requires the CMA9 Banks to be aligned with the Regulatory and Technical Standards (RTS) under PSD2.

A previous draft of the EBA RTS required that the interface "shall use ISO 20022 elements, components or approved message definitions". In keeping with that requirement, the API payloads are designed using the ISO 20022 message elements and components where available.

The principles we have applied to re-use of ISO message elements and components are:

  • Where relevant, the API payloads have been flattened so that they are more developer friendly. This has been a request from the developer community, and the stakeholders involved in the design workshop.
  • Only elements that are required for the functioning of the API endpoint will be included in the API payload. API endpoints are defined for specific use-cases (not to be generically extensible for all use-cases).
  • We will modify ISO 20022 elements where the existing standard does not cater for an API context (such as filtering, pagination etc.). An example is having latitude and longitude in decimal format, as this is how developers will work with latitude and longitude; or using simple types (e.g., a single date-time field) instead of a complex type (e.g., a choice field with a nesting of date and time).

Extensibility

It is intended that the API flows will be extended to cater for more complex use-cases in subsequent releases, and we have kept this in mind during the design.

Idempotency

Idempotency is difficult to implement consistently and leverage consistently. 

As a result, idempotency is used sparingly in the Open Banking API specifications; with a preference to allow TPPs to simply re-submit a request under failure conditions.

APIs have been defined to be idempotent, where not doing so would cause a poor PSU user-experience or increase false positive risk indicators.

Message Signing

Digital signatures will facilitate non-repudiation for Open Banking APIs. 

The approach for message signing is documented in Basics / Message Signing.

The applicability of signatures to individual requests and responses is documented on the page for each of the resources. However, implementors of the standards can optionally add signatures to all response and request payloads.

Message Encryption

Message Encryption is an optional feature of the Open Banking APIs to facilitate additional protection of inflight data.

The approach for message encryption is documented in Basics / Message Encryption.

Applicability to individual requests and responses is not defined in the standards. Application will be based on agreement between implementors of the standards.

Agnostic to Payment Schemes

The API will be designed so that it is agnostic to the underlying payment scheme that is responsible for carrying out the payment.

As a result, we will not design field lengths and payloads to only match the Faster Payments message, and will instead rely on the field lengths and definitions in ISO 20022. Due diligence has been carried out to ensure that the API has the necessary fields to function with Bacs payments - as per the agreed scope.

We will provide further mapping guidance to ensure that differences are understood between the Open Banking Payment API standard, and FPS and Bacs schemes where applicable.

Status Codes

The API uses two status codes that serve two different purposes:

  • The HTTP Status Code reflects the outcome of the API call (the HTTP operation on the resource). Granular Functional Error Codes are specified as part of API Error Response Structure, after consultation with Security and Fraud Working Group.
  • A Status field in some of the resource payloads reflects the status of resources.

Unique Identifiers (Id Fields)

A REST resource should have a unique identifier (e.g. a primary key) that may be used to identify the resource. These unique identifiers are used to construct URLs to identify and address specific resources.

However, considering that some of the resources described in these specifications do not have a primary key in the system of record, the Id field will be optional for some resources.

An ASPSP that chooses to populate optional Id fields must ensure that the values are unique and immutable.

Categorisation of Implementation Requirements

Where a requirement is being implemented by either an ASPSP and/or a TPP, a different categorisation is applied. The functionality, endpoints and fields within each resource are categorised as 'Mandatory', 'Conditional' or 'Optional'.

ASPSPs must make documentation available to TPPs (e.g. on their developer portals) to which 'Conditional' / 'Optional' endpoints and fields are implemented for any given implementation of the specification.

Mandatory

Functionality, endpoints and fields marked as Mandatory are required in all cases for regulatory compliance and/or for the API to function and deliver essential customer outcomes.

For functionalities and endpoints: 

  • An ASPSP must implement an endpoint that is marked Mandatory.
  • An ASPSP must implement functionality that is marked Mandatory.

For fields:

  • A TPP must specify the value of a Mandatory field.
  • An ASPSP must process a Mandatory field when provided by the TPP in an API request.
  • An ASPSP must include meaningful values for Mandatory fields in an API response.

Conditional

Functionality, endpoints and fields marked as Conditional may be required in some cases for regulatory compliance (for example, if these are made available to the PSU in the ASPSP's existing Online Channel, or if ASPSPs (or a subset of ASPSPs) have been mandated by a regulatory requirement).

For functionalities and endpoints:

  • An ASPSP must implement functionality and endpoints marked as Conditional if these are required for regulatory compliance.

For fields:

  • All fields that are not marked as Mandatory are Conditional.
  • A TPP may specify the value of a Conditional field.
  • An ASPSP must process a Conditional field when provided by the TPP in an API request, and must respond with an error if it cannot support a particular value of a Conditional field.
  • An ASPSP must include meaningful values for Conditional fields in an API response if these are required for regulatory compliance.

Optional

Functionality and endpoints marked as Optional are not necessarily required for regulatory compliance but may be implemented to enable desired customer outcomes.

For functionalities and endpoints:

  • An ASPSP may implement an Optional endpoint.
  • An ASPSP may implement Optional functionality.

For fields:

  • There are no Optional fields.
  • For any endpoints which are implemented by an ASPSP, the fields are either Mandatory or Conditional.

Basics

Actors

ActorAbbreviationTypeSpecialisesDescription
Payment Service UserPSUPersonN/AA natural or legal person making use of a payment service as a payee, payer or both (PSD2 Article 4(10)).
Payment Service ProviderPSPLegal EntityN/AA legal entity (and some natural persons) that provide payment services as defined by PSD2 Article 4(11).
Account Servicing Payment Service ProviderASPSPLegal EntityPSP

An ASPSP is a PSP that provides and maintains a payment account for a payment services user (PSD 2 Article 4(15).

The CMA 9 are all ASPSPs.

Third Party Providers / Trusted Third PartiesTPPLegal EntityPSP

A party other than an ASPSP that provides payment related services.

The term is not actually defined in PSD2, but is generally deemed to include all payment service providers that are 3rd parties (the ASPSP and the PSU to whom the account belongs being the first two parties).

References to a "TPP" in the specification relate to a piece of registered software with an ASPSP (with a specific client_id).

Payment Initiation Service ProviderPISPLegal EntityTPP

A TPP that provides Payment Initiation Services.

PSD2 does not offer a formal definition. Article 4(18) quite circularly defines a PISP as a PSP that provides Payment Initiation Services.

Account Information Service Provider

AISPLegal EntityTPP

A TPP that provides Account Information Services.

Again, PSD2 defines AISPs in Article 4(19) circularly as a PSP that provides account information services

Card Based Payment Instrument IssuerCBPIILegal EntityTPPA TPP that issues card based payment instruments to PSUs and requires access to the Confirmation of Funds API.

Character Encoding

The API requests and responses must use a UTF-8 character encoding. This is the default character encoding for JSON (RFC 7158 - Section 8.1)

However, an ASPSP's downstream system may not accept some UTF-8 characters, such as emoji characters (e.g. "Happy Birthday 🎂🎂!" may not be an acceptable Payment Reference). If the ASPSP rejects the message with a UTF-8 character that cannot be processed, the ASPSP must respond with an HTTP 400 (Bad Request) status code.

Date Formats

An ASPSP must accept all valid ISO-8601 date formats including its permitted variations (e.g. variations in how the timezone is defined, dates with or with a seconds or milliseconds part etc.) in the requests.

All dates in the JSON payloads are represented in ISO 8601 date-time format. All date-time fields in responses must include the timezone. For Example:

Code Block
languagejs
themeMidnight
2017-04-05T10:43:07+00:00
2018-07-03T14:43:41Z

All dates in the query string are represented in ISO 8601 date-time format and must not include the timezone. For example:

Code Block
languagejs
themeMidnight
2017-04-05T10:43:07
2017-04-05

All dates in the HTTP headers are represented as RFC 7231 Full Dates. An example is below:

Code Block
languagejs
themeMidnight
Sun, 10 Sep 2017 19:43:31 GMT

All dates in the JWT claims are expressed as a JSON number, representing the number of seconds from 1970-01-01T0:0:0Z as measured in GMT until the date/time.

Code Block
languagejs
themeMidnight
//Sun, 12 Feb 2018 14:45:00 GMT
1518446700

Resource URI Path Structure

The path of the URI must follow the structure below (from the OB API Release Management document).

  • [participant-path-prefix]/open-banking/[version]/[resource-group]/[resource]/[resource-id]/[sub-resource]

This consists of the following elements:

  • [participant-path-prefix]
    An optional ASPSP specific path prefix.
  • open-banking
    The constant string "open-banking".
  • [version]
    The version of the APIs expressed as /v[major-version].[minor-version]/.
  • [resource-group]
    The resource-group identifies the group of endpoints, according to the PSD2 role used to access the API (as "aisp", "pisp" or "cbpii").
  • [resource]/[resource-id]
    Details the resource.
  • [sub-resource]
    Details the sub-resource.

An ASPSP must use the same participant-path-prefix and host name for all its resources.

Examples:

https://superbank.com/apis/open-banking/v3.1/pisp/domestic-payments
https://superbank.com/apis/open-banking/v3.1/aisp/account-access-consents
https://superbank.com/apis/open-banking/v3.1/aisp/accounts
https://superbank.com/apis/open-banking/v3.1/aisp/accounts/1234
https://superbank.com/apis/open-banking/v3.1/aisp/accounts/1234/transactions
https://superbank.com/apis/open-banking/v3.1/cbpii/funds-confirmation-consents

For brevity, the APIs are referred to by their resource names in these documents and in all examples.

Headers

Request Headers

Header ValueNotesPOST RequestsGET RequestsDELETE RequestsPUT Requests
x-fapi-auth-date

The time when the PSU last logged in with the TPP.  The value is supplied as a HTTP-date as in section 7.1.1.1 of [RFC7231], e.g., x-fapi-auth-date: Tue, 11 Sep 2012 19:43:31 GMT

OptionalOptionalOptionalDo not use
x-fapi-customer-ip-address

The PSU's IP address if the PSU is currently logged in with the TPP.

OptionalOptionalOptionalDo not use
x-fapi-interaction-id

An RFC4122 UID used as a correlation Id.

If provided, the ASPSP must "play back" this value in the x-fapi-interaction-id response header.

OptionalOptionalOptionalOptional
Authorization

Standard HTTP Header; Allows Credentials to be provided to the Authorisation / Resource Server depending on the type of resource being requested. For OAuth 2.0 / OIDC, this comprises of either the Basic / Bearer Authentication Schemes.

MandatoryMandatoryMandatoryMandatory
Content-Type

Standard HTTP Header; Represents the format of the payload being provided in the request.

This must be set to application/json, except for the endpoints that support Content-Type other than application/json (e.g POST /file-payment-consents/{ConsentId}/file), the ASPSP must specify the available options on their developer portals.

This must be set to application/jose+jwe for encrypted requests.

The TPP may provide additional information (e.g. a 'q' value and charset). 

If set to any other value, the ASPSP must respond with a 415 Unsupported Media Type.

MandatoryDo not useDo not useMandatory
Accept

Standard HTTP Header; Determine the Content-Type that is required from the Server.

If the TPP expects an unencrypted response, it must indicate that the only a JSON response is accepted (e.g by setting the value to application/json) as a content header for all endpoints that respond with JSON.

If the TPP expects an encrypted response, it must indicate that the only a JWT response is accepted (e.g by setting the value to application/jose+jwe) as a content header for all endpoints that respond with JSON.

For endpoints that do not respond with JSON (e.g GET ../statements/{StatementId}/file), the ASPSP must specify the available options on their developer portals.

The TPP may provide additional information (e.g. a 'q' value and charset). 

If set to an unacceptable value the ASPSP must respond with a 406 (Not Acceptable).

If not specified, the default is application/json.

OptionalOptionalDo not useOptional
x-idempotency-key

Custom HTTP Header; Unique request identifier to support idempotency.

Mandatory for POST requests to idempotent resource end-points.

Must not be specified for other requests.

OptionalDo not useDo not useDo not use
x-jws-signature

Header containing a detached JWS signature of the body of the payload.

Refer to resource specific documentation on when this header must be specified.

API specificAPI specificAPI specificMandatory
x-customer-user-agent

The header indicates the user-agent that the PSU is using.

The TPP may populate this field with the user-agent indicated by the PSU.

If the PSU is using a TPP mobile app, the TPP must ensure that the user-agent string is different from browser based user-agent strings.

OptionalOptionalOptionalOptional

Whether the PSU is present or not-present is identified via the x-fapi-customer-ip-address header. If the PSU IP address is supplied, it is inferred that the PSU is present during the interaction.

The implications to this are:

  • ASPSPs will need to rely on the AISPs assertion.
  • As agreed at TDA (18/05), it will be up to the ASPSPs to interpret the 4-times customer not present rule, to be within the “spirit” of the RTS requirement.
  • This is dependent on GDPR considerations on the AISP passing a PSU's IP address to an ASPSP.

Response Headers

Header ValueNotesMandatory?
Content-Type

Standard HTTP Header; Represents the format of the payload returned in the response.

The ASPSP must return Content-Type: application/json  as a content header for all unencrypted endpoints, except the GET ../statements/{StatementId}/file and ../file-payment-consents/{ConsentId}/file endpoints, where it is up to the ASPSP to specify available options.

The ASPSP must return Content-type: application/jwe for all encrypted end-points.

Mandatory
x-jws-signature

Header containing a detached JWS signature of the body of the payload.

Refer to resource specific documentation on when this header must be returned. Where a signed response is indicated in the documentation this header should be returned for error responses where a response body is returned.

API specific
x-fapi-interaction-id

An RFC4122 UID used as a correlation Id.

The ASPSP must set the response header x-fapi-interaction-id to the value received from the corresponding fapi client request header or to a RFC4122 UUID value if the request header was not provided to track the interaction. The header must be returned for both successful and error responses.

Mandatory
Retry-After

Header indicating the time (in seconds) that the TPP should wait before retrying an operation.

The ASPSP should include this header along with responses with the HTTP status code of 429 (Too Many Requests).

Optional

HTTP Status Codes

The following are the HTTP response codes for the different HTTP methods, across all Read/Write API endpoints.

Situation

HTTP Status

Notes

Returned by POSTReturned by GETReturned by DELETEReturned by PUT
Request completed successfully200 OKPUT will be specified to return the updated resource. A 200 status code is therefore appropriate.NoYesNoYes
Normal execution. The request has succeeded.201 CreatedThe operation results in the creation of a new resource.YesNoNoNo
Delete operation completed successfully204 No Content
NoNoYesNo

Request has malformed, missing or non-compliant JSON body, URL parameters or header fields.

400 Bad RequestThe requested operation will not be carried out.YesYesYesYes

Authorization header missing or invalid token

401 Unauthorized

The operation was refused access.

Re-authenticating the PSU may result in an appropriate token that may be used.

YesYesYesYes

Token has incorrect scope or a security policy was violated.

403 Forbidden

The operation was refused access.

Re-authenticating the PSU may result in an appropriate token that may be used.

YesYesYesYes
The TPP tried to access the resource with a method that is not supported.405 Method Not Allowed
YesYesYesYes
The request contained an Accept header other than permitted media types and a character set other than UTF-8406 Not Acceptable
YesYesYesYes
The operation was refused because the payload is in a format not supported by this method on the target resource.415 Unsupported Media Type
YesNoNoYes
The operation was refused as too many requests have been made within a certain timeframe.429 Too Many Requests

ASPSPs may throttle requests when they are made in excess of their fair usage policy.

ASPSPs must document their fair usage policies in their developer portals.

The ASPSP must respond with this status if it throttles the request.

The ASPSP should include a Retry-After header in the response indicating how long the TPP must wait before retrying the operation.

YesYesYesYes
Something went wrong on the API gateway or micro-service500 Internal Server ErrorThe operation failed.YesYesYesYes
Service version deprecation503 Service UnavailableWhere an API is deprecated and no longer operationally supported by an ASPSP, its URI path may still be active and accept API requests. In this context it is recommended that a 503 Service Unavailable be returned so that the TPP is aware of the API version being offline.YesYesYesYes

An ASPSP MAY return other standard HTTP status codes (e.g. from gateways and other edge devices) as described in RFC 7231 - Section 6.

ASPSPs must respond with error response in the OAuth/OIDC flow with mandatory alignment of the error codes to those specified in OpenID Connect Core Specification Section 3.1.2.6.

ASPSPs must respond with Open Banking Error Response Structure for all errors during API Calls.

400 (Bad Request) v/s 404 (Not Found)

When a TPP tries to request a resource URL with a resource Id that does not exist, the ASPSP must respond with a 400 (Bad Request) rather than a 404 (Not Found).

e.g., if a TPP tries to GET /domestic-payments/22289 where 22289 is not a valid DomesticPaymentId, the ASPSP must respond with a 400.

When a TPP tries to request a resource URL that results in no business data being returned (e.g. a request to retrieve standing order on an account that does not have standing orders) the ASPSP must respond with a 200 (OK) and set the array to be empty.

If the TPP tries to access a URL for a resource that is not defined by these specifications (e.g. GET /card-accounts), the ASPSP may choose to respond with a 404 (Not Found).

If an ASPSP has not implemented an API endpoint, it must respond with a 404 (Not Found) for requests to that URL.

The table below illustrates some examples of expected behaviour:

SituationRequestResponse
A TPP attempts to retrieve a payment with a DomesticPaymentId that does not existGET /domestic-payments/1001400 (Bad Request)
A TPP attempts to retrieve a resource that is not definedGET /bulk404 (Not Found)

A TPP attempts to retrieve a resource that is in the specification, but not implemented by the ASPSP.

e.g., an ASPSP has chosen not to implement the status API endpoint for domestic-scheduled-payments

GET /domestic-scheduled-payments/1002404 (Not Found)
A TPP attempts to retrieve standing orders for an AccountId that exists, but does not have any standing ordersGET /accounts/1000/standing-orders
200 OK
{
  "Data": {
    "StandingOrder": []
  },
  "Links": {
    "Self": "https://api.alphabank.com/open-banking/v3.1/aisp/accounts/1000/standing-orders/"
  },
  "Meta": {
    "TotalPages": 1
  }
}

403 (Forbidden)

When a TPP tries to access a resource that it does not have permission to access, the ASPSP must return a 403 (Forbidden) with an optional body with Error Response.

The situation could arise when:

  • The TPP uses an access token that does not have the appropriate scope to access the requested resource.
  • The TPP attempted to access a resource with an Id that it does not have access to. e.g., an attempt to access GET /domestic-payments/1001 where a payment resource with Id 1001 belongs to another TPP.
  • The TPP tries to access an account/transaction resource and the TPP does not have a consent authorisation with the right Permissions to access the requested resource. e.g., an attempt to access GET /standing-orders when the ReadStandingOrdersBasic permission was not included in the consent authorisation.
  • The TPP tries to access an account/transaction resource and the TPP does not have a consent authorisation for the AccountId. e.g., an attempt to access GET /accounts/2001 or GET /accounts/2001/transactions when the PSU has not selected AccountId 2001 for authorisation.
  • The TPP attempts to access a Resource and the ASPSP decides to re-authenticate the PSU. The ASPSP must respond back with an appropriate error code to indicate re-authentication is required.

401 (Unauthorized)

When the TPP uses an expired access token, the ASPSP must return a 401 (Unauthorized) without any error response.

The situation could arise when an ASPSP has chosen to expire an Access Token for any of the following reasons:

  1. The consent has expired (the Expiration Date Time has lapsed)
  2. Suspicious usage of the Access Token or suspected fraud
  3. Implementation of 90 Day SCA

This error can potentially be remedied by asking the PSU to re-authenticate or authenticate with the right permissions.

429 (Too Many Requests)

When a TPP tries to access a resource too frequently the ASPSP may return a 429 (Too Many Requests).  This is a non functional requirement and is down to individual ASPSPs to decide throttling limits. 

This situation could arise when:

  • A TPP decides to implement "Real Time Payment Status" functionality for its users and implements this badly by polling a GET endpoint or an Idempotent POST endpoint in excess of the ASPSP's fair usage policy to provide pseudo "real-time" Status updates to the user.
  • A TPP decides to use the Single Immediate Payment endpoint as if it were a batch payment facility and sends a large number of payment requests in a very short space of time such that it exceeds the ASPSP's fair usage policy. 

Pre-Conditions

The following pre-conditions must be satisfied in order to use these APIs:

Pre-conditions for TPPs

  1. The TPP must have completed onboarding on the Open Banking Directory.
  2. The TPP must have registered one or more software statements with the Open Banking Directory.
    • To use the Payment Initiation APIs, the software statement must have "payments" as one of the permitted scopes.
    • To use the Account/Transaction APIs, the software statement must have "accounts" as one of the permitted scopes.
    • To use the Confirmation of Funds APIs, the software statement must have "fundsconfirmations" as one of the permitted scopes.
  3. The TPP must have valid network and signing certificates issued by Open Banking.
  4. The TPP must have completed registration with each of the ASPSPs that it wants to transact with and have been issued with a client-id.

Pre-conditions for ASPSPs

  1. The ASPSP must have completed onboarding on the Open Banking Directory.
  2. The ASPSP must have valid network and signing certificates issued by Open Banking.

Idempotency

An idempotency key is used to guard against the creation of duplicate resources when using the POST API endpoints (where indicated). 

If an idempotency key is required for an API endpoint:

  • The x-idempotency-key provided in the header must be at most 40 characters in size. If a larger x-idempotency-key length is provided, the ASPSP must reject the request with a status code is 400 (Bad Request).
  • The TPP must not change the request body while using the same x-idempotency-key. If the TPP changes the request body, the ASPSP must not modify the end resource. The ASPSP may treat this as a fraudulent action.
  • The ASPSP must treat a request as idempotent if it had received the first request with the same x-idempotency-key from the same TPP in the preceding 24 hours
  • The ASPSP must not create a new resource for a POST request if it is determined to be an idempotent request.
  • The ASPSP must respond to the request with the current status of the resource (or a status which is at least as current as what is available on existing online channels) and a HTTP status code of 201 (Created).
  • The TPP must not use the idempotent behaviour to poll the status of resources.
  • The ASPSP may use the message signature, along with the x-idempotency-key to ensure that the request body has not changed.

If an idempotency key is not required for an API endpoint:

  • The ASPSP must ignore the idempotency key if provided.

Message Signing

Overview

This section provides an overview of how message signing is implemented for the Open Banking Read/Write APIs.

The APIs require TLS 1.2 Mutual Authentication and this may be used as a means of non-repudiation. However, it would be difficult to maintain digital records and evidence of non-repudiation if the API only relied on TLS 1.2.

A solution for non-repudiation that does not rely on TLS, would be achieved by providing a JWS with detached content (as defined in RFC 7515 - Appendix F) in the HTTP header of each API request.

The HTTP body would form an un-encoded payload as defined in RFC 7797.

The JWS would be signed using an algorithm that supports asymmetric keys.

A request would be signed by a TPP's private key and a response would be signed by the ASPSP's private key.

Not all API requests and responses are signed. Whether message signing is mandatory, supported or not supported is documented along with each API.

Key Stores

A Trust Anchor that is trusted by the ASPSPs and TPPs is responsible for providing a store of public keys for each of the parties. 

The Trust Anchor could be a centralised directory (such as the Open Banking Directory) that hosts the public part of a key pair generated any of the parties.

Alternatvely the Trust Anchor could be a CA (or a set of CAs) that provide digital certficates (such as a QTSP providing eIDAS certificates)

The Trust Anchor must provide a means for any of the parties to retrieve public keys to verify messages.

Specification

The TPP must sign the HTTP body of each API request that requires message signing.

The ASPSP must sign the HTTP body of each API response that requires message signing.

The ASPSP should verify the signature of API requests that it receives before carrying out the request. If the signature fails validation, the ASPSP must respond with a 400 (Bad Request).

The ASPSP must reject any API requests that should be signed but do not contain a signature in the HTTP header with a 400 (Bad Request) error.

The TPP should verify the signature of API responses that it receives.

The signer must sign the message with PS256.

Process for Signing a Payload

Step 1: Identify the Private Key and Corresponding Signing Certificate to be Used for Signing

The signer must use a private key that has a corresponding public key that is lodged with the Trust Anchor.

The signing key must be valid at the time of creating the JWS.

Step 2: Form the JOSE Header

The JOSE header for the signature must contain the following fields

Claim

Description

alg

The algorithm that will be used for signing the JWS.

The list of valid algorithms is here https://tools.ietf.org/html/rfc7518#section-3.1.

This value must be PS256

typ

This is an optional claim.

If it is specified, it must be set to the value "JOSE"

cty

This is an optional claim for JSON payloads

If it is specified, it must be set to the value "json" or "application/json" for json payloads.

For non-json payloads (e.g. for PDF files), the mime type of the payload must be specified in this claim.

kid

This is a mandatory claim.

It must match a value that can be used to look up the key in a key store hosted by the Trust Anchor.

b64

This must have the boolean value false.

This indicates that the message payload is not base64 url encoded.

(See RFC 7797 - The "b64" header Parameter)

http://openbanking.org.uk/iat

This must be a JSON number representing the number of seconds from 1970-01-01T0:0:0Z as measured in GMT until the date/time. 

This is a private header parameter name. (See RFC 7515 - Private Header Parameter Names)

http://openbanking.org.uk/iss

This must be a string that identifies the PSP.

If the issuer is using a certificate this value must match the subject of the signing certificate.

If the issuer is using a signing key lodged with a Trust Anchor, the value is defined by the Trust Anchor and should uniquely identify the PSP.

For example, when using the Open Banking Directory, the value must be:

  • When issued by a TPP, of the form {{orgi-id}}/{{software-statement-id}},
  • When issued by an ASPSP of the form {{org-id}}

Where:

  • org-id is the open-banking issued organization id
    • software-statement-id is the open-banking issued software-statement-id
http://openbanking.org.uk/tan

This must be a string that consists of a domain name that is registered to and identifies the Trust Anchor that hosts the public counter-part of the key used for signing.

For example, when using the Open Banking Directory, the value must be openbanking.org.uk

crit

This must be a string array consisting of the values "b64", "http://openbanking.org.uk/iat", "http://openbanking.org.uk/iss", "http://openbanking.org.uk/tan"

This indicates that the JWS signature validator must understand and process the three additional claims.

Step 3: Compute the JWS

The signer must compute the signature as a detached JWS as defined in RFC 7515, Appendix F

"One way to do this is to create a JWS
   in the normal fashion using a representation of the content as the
   payload but then delete the payload representation from the JWS and
   send this modified object to the recipient rather than the JWS."
...
Note that this method needs no support from JWS libraries, as
   applications can use this method by modifying the inputs and outputs
   of standard JWS libraries.

Step 4: Add the JWS as a HTTP Header 

The signer must include an HTTP header called x-jws-signature with its value set to the signature computed in Step 3.

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x-jws-signature: V2hhdCBoYXRoIGdvZCB3cm91Z2h0ID8=..QnkgR2VvcmdlLCBzaGUncyBnb3QgaXQhIEJ5IEdlb3JnZSBzaGUncyBnb3QgaXQhIE5vdyBvbmNlIGFnYWluLCB3aGVyZSBkb2VzIGl0IHJhaW4/

Process for Verifying a Signature

Step 1: Extract the components from the JWS 

The verifier must extract and decode the JOSE header and signature from the JWS provided in the x-jws-signature.

Step 2: Validate the JOSE Header and Certificate

The verifier must validate the JOSE header to ensure that it is a valid JSON object with only the claims specified in Process for Signing a Payload - Step 2.

The verifier must validate that the typ header if specified has the value JOSE.

The verifier must validate that the cty header to ensure that the payload is of the expected mime type. 

The verifier must ensure that the specified alg is one of the algorithms specified by OBIE.

The verifier must ensure that the specified kid is valid and a public key with the specified key Id can be retrieved from the Trust Anchor.

The verifier must ensure that the b64 claim is set to false.

The verifier must ensure that the http://openbanking.org.uk/iat claim has a date-time value set in the past.

The verifier must ensure that PSP bound to the http://openbanking.org.uk/iss claim matches the expected PSP.

The verifier must ensure that http://openbanking.org.uk/tan claim contains the DNS name of a Trust Anchor that it trusts.

The verifier must ensure that the crit claim does not contain additional critical elements.

Step 3: Verify the Signature

The verifier must verify the signature, as defined in RFC 7515, Appendix F.

To use the modified object, the recipient
   reconstructs the JWS by re-inserting the payload representation into
   the modified object and uses the resulting JWS in the usual manner.
   Note that this method needs no support from JWS libraries, as
   applications can use this method by modifying the inputs and outputs
   of standard JWS libraries.

Sample JOSE Header

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{
	"alg": "RS512",
	"kid": "90210ABAD",
	"b64": false,
	"http://openbanking.org.uk/iat": 1501497671,
	"http://openbanking.org.uk/iss": "C=UK, ST=England, L=London, O=Acme Ltd.",
    "http://openbanking.org.uk/tan": "openbanking.org.uk",
	"crit": [ "b64", "http://openbanking.org.uk/iat", "http://openbanking.org.uk/iss", "http://openbanking.org.uk/tan"]
}

Message Encryption

Overview

This section provides an overview of how message encryption is implemented for the Open Banking Read/Write APIs.

Message encryption is implemented through JSON Web Encryption (JWE).

The approach differs from message signing in that:

  • The entire request or response payload is delivered in the form of an encrypted JWT.
  • The definition of a given request or response in the Swagger specification represents the decrypted payload.
  • The JWE will not be represented in its encrypted form in the Swagger specifications.
  • Sending or expecting to receive an encrypted payload is denoted by setting the Accept or Content-type header to application/jose+jwe.

Message encryption is optional for ASPSPs to implement. If an ASPSP does not support should reject any requests with a Content-type or Accept headers that indicate that message encryption is required.

Message Signing and Encryption

Where message signing and encryption is required the convention is for a JWE to be encapsulated in a JWS.

Where message signing and encryption is required by implementors they should continue to use the detached signature method described above for consistency with the standards.

The use of the type application/jose+jwe header indicates the JWT is encrypted and not signed.

The exception to this approach is the Event Notification API, which uses a native JWS. The native JWS should continue to be used and encapsulate the JWE.

Key Stores

A Trust Anchor that is trusted by the ASPSPs and TPPs is responsible for providing a store of public keys for each of the parties.

The Trust Anchor could be a centralised directory (such as the Open Banking Directory) that hosts the public part of a key pair generated by any of the parties. Alternatively implementors can self-host key stores containing their public keys and publicise their location through appropriate means.

The Trust Anchor must provide a means for any of the parties to retrieve public keys to encrypt messages.

Message encryption is predicated on the sender encrypting the payload using the public part of a key matched by a private key held by the recipient. Both the sender and recipient must know which key they should use to encrypt and decrypt the message.

In order to provide a simple implementation of communicating key usage the following guidelines are provided:

  • JSON Web Key Sets (JWKS) should be provided by implementors that for simplicity are dedicated to the operation of the Read/Write APIs.
  • The recipient should aim to host a single public key used for encryption in their JWKS.
  • The public key will be the only one in the JWKS that has the use claim set to enc and keys_ops claim set to encrypt.
  • When keys are rotated there may be period where more than one key exists that is intended for encryption. The recipient should therefore:
    • Update the claims above when the key is rotated so that one and only one carries the attributes at any one time.
    • If updating claims in place is not possible the recipient must publicise the key identifier (kid) of the public key to be used for encryption using a means agreed between implementors.
  • The sender must indicate the the public key used for encryption through the kid claim in the JOSE Header of the JWE.

If following these guidelines is not possible the recipient must publicise the key identifier (kid) of the public key to be used for encryption using a means agreed between implementors.

Encrypting Non-JSON Data

For endpoints that implement non-JSON payloads JWE may be used to encryption the payload. The JWE must indicate the underlying content type through the cty header:


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{
  "alg": "ES256",
  "cty": "application/octet-stream"
}

Filtering

An ASPSP must provide limited support of filtering on GET operations that return multiple records.

The filter parameters, are always specific to particular field(s) of the resource, and follow the rules/formats defined under the resource's data dictionary.

In case of DateTime type filter parameters, values must be specified in ISO8601 format. If the DateTime contains a timezone, the ASPSP must ignore the timezone component.

The filter values will be assumed to refer to the same timezone as the timezone in which the resource is maintained.

Pagination

An ASPSP MAY provide a paginated response for GET operations that return multiple records.

In such a situation, the ASPSP MUST:

  • If a subsequent page of resource records exists, the ASPSP must provide a link to the next page of resources in the Links.Next field of the response. The absence of a next link would indicate that the current page is the last page of results.
  • If a previous page of resource records exists, the ASPSP must provide a link to the previous page of resources in the Links.Prev field of the response. The absence of a prev link would indicate that the current page is the first page of results.

For a paginated responses, the ASPSP SHOULD ensure that the number of records on a page are within reasonable limits, a minimum of 25 records (except on the last page where there are no further records) and a maximum of 1000 records.

Additionally, the ASPSP MAY provide:

  • A link to the first page of results in the Links.First field.
  • A link to the last page of results in the Links.Last field.
  • The total number of pages in the Meta.TotalPages field.

As with all other responses, the ASPSP MUST include a "self" link to the resource in the Links.Self field as described in the Links sections.

This standard does not specify how the pagination parameters are passed by the ASPSP and each ASPSP may employ their own mechanisms to paginate the response.

If the original request from the AISP included filter parameters, the paginated response must return only results that match the filter.

ASPSPs are not expected to implement pagination with transaction isolation. The underlying data-set may change between two subsequent requests. This may result in situations where the same transaction is returned on more than one page.

Archiving

Archiving of resources will be for ASPSPs to define based on their internal Legal and Regulatory requirements.

In addition:

  • ASPSPs must only delete expired intent-ids 24 hours after creation

  • ASPSPs may archive these expired intent-ids

Supplementary Data

A number of resources in the specification include a section for Supplementary Data. This is intended to allow ASPSPs to accept or provide information in a request or response that is not catered for by other sections of the resource definition.

The Supplementary Data section is defined as an empty JSON object in the specification.

Wherever used, an ASPSP must define and document (on their developer portal) their own structure, usage and (mandatory/optional) requirements for Supplementary Data.

An ASPSP must not use Supplementary Data if an element already exists in the OBIE standard that fulfils the requirement.

Security & Access Control

Scopes & Grant Types

To access each of the APIs, the API must be called with an access token in the HTTP Authorization header.

The scopes required with these access tokens and the grant type used to get the access token are specified in the specific API documentation.

Consent Authorisation

OAuth 2.0 scopes are coarse grained and the set of available scopes are defined at the point of client registration. There is no standard method for specifying and enforcing fine grained scopes (e.g. a scope to enforce payments of a specified amount on a specified date). 

An intent is used to define the fine-grained permissions that are granted by the PSU to the TPP.

The act of providing authorisation of an intent by a PSU to an ASPSP is called consent authorisation.

The Open Banking Read/Write APIs use a variety of intents such as account-access-consent, funds-confirmation-consents and the payment order consents.

A TPP requests an ASPSP to create intent by using a client credentials grant. The ASPSP creates the intent and responds with the intent-id. The TPP then redirects the PSU to the ASPSP to authorise consent for the intent, passing in an intent-id as a parameter.

This is done through an authorization grant flow and results in the issuance of an access token tied to the authorised intent.

An access token is bound to a single PSU and an intent.

Error Condition

If the PSU does not complete a successful consent authorisation (e.g. if the PSU is not authenticated successfully), the authorization code grant ends with a redirection to the TPP with an error response as described in OpenID Connect Core Specification Section 3.1.2.6. The PSU is redirected to the TPP with an error parameter indicating the error that occurred.

Token Expiry Time

The expiry time for issued access tokens and refresh tokens must be deterministic for the TPP.

In order to achieve this:

  • The ASPSP must indicate the lifetime in seconds of the access token in the expires_in field of the JSON object returned by the token end-point. (See https://tools.ietf.org/html/rfc6749#section-4.2.2)
  • If the ASPSP issues a refresh token, the ASPSP must indicate the date-time at which the refresh token will expire in a claim named http://openbanking.org.uk/refresh_token_expires_at in the Id token (returned by the token end-point or userinfo end-point). Its value MUST be a number containing a NumericDate value, as specified in https://tools.ietf.org/html/rfc7519#section-2 
  • NumericDate is a JSON numeric value representing the number of seconds from 1970-01-01T00:00:00Z UTC until the specified UTC date-time, ignoring leap seconds.
  • If the ASPSP does not issue a refresh token, the ASPSP must not populate the http://openbanking.org.uk/refresh_token_expires_at claim in the Id token
  • If the ASPSP issues a refresh token that does not expire, the ASPSP must populate the claim named http://openbanking.org.uk/refresh_token_expires_at in the Id token with a value representing the number of seconds to 03:14:07 UTC on 19 January 2038 (end of UNIX epoch)

Exemptions from Strong Customer Authentication

The PSD2 RTS specifies the conditions under which a payment services provider is exempt from carrying out strong customer authentication.

This specification does not provide any direction or guidance on the application of these exemptions.

Supported Grant Types

OAuth2.0 and OIDC provide support for a variety of methods for the Authorization Server to issue an access token to the Client. These methods are called Grants.

Some of these Grant Types only identify the client, but not the resource owner. It is sufficient to provide the client's identity.

On the other hand, other grant types identify the client and resource owner. The resource owner must be authenticated to issue access tokens through such a grant type.

The Open Banking Read/Write specification supports a sub-set of these grants as well as the FAPI Profile CIBA grant.

The security profile describes these grants in detail.

Grant Types for identifying the TPP

Client Credentials Grant

Some of the APIs can be accessed using an access token issued through a Client Credentials Grant. These APIs do not execute in the context of a consent or of a PSU and it is sufficient to identify and authenticate the TPP in order to call these APIs.

The Client Credentials Grant is documented in Section 4.4 of the OAuth 2.0 RFC

Grant Types for identifying the TPP and PSU

Authorization Code Grant & Hybrid Grant

APIs that require the PSU as well as TPP to be identified and authenticated can only be accessed using an access token issued through an Authorization Code Grant, Hybrid Grant or CIBA.

The Authorization Code Grant (see Section 4.1 of the OAuth 2.0 RFC and Section 3.1 of the OIDC Specification) can be used to redirect a PSU to the ASPSP's authorization pages in order to authenticate the PSU and generate and authorization code. The TPP can then exchange this authorization code for an access token by calling the ASPSP's token end-point and authenticating itself.

The Hybrid Grant (See Section 3.3. of the OIDC Specification) provides another redirect based mechanism for authenticating PSUs that is deemed to be more secure than using the Authorization Code Grant.

The The UK Open Banking Security Profile and FAPI read & Write API Security Profile specify a more stringent set of requirements that ASPSPs and TPPs must adhere to.

id_token_hint

When an access token is generated through an authorization code grant (or hybrid flow), an OIDC Authorization Server will also issue and id_token along with the access token.

The id_token is a signed JWT that consists of a number of claims that identify the resource owner. In the Open Banking context, the id_token always identifies the intent_id that was authorised which can be mapped onto a single PSU. 

As the id_token is signed by the ASPSP and bound to a specific TPP (through the aud claim), the id_token could be leveraged to identify the PSU in subsequent authorisation requests. OIDC caters for this by allowing the id_token to be passed into an authorization code grant request as the id_token_hint query parameter (as documented here).

CIBA

The Client Initiated Back-channel Authentication flow is part of the OpenID specifications. A FAPI Profile of the CIBA specification is available and ASPSPs that implement CIBA must adhere to the profile. An ASPSP may optionally implement the CIBA flow to allow PSUs to authenticate themselves using a decoupled authentication device that is distinct from the consumption device on which they consume the TPP application.

Identifying the PSU

ASPSPs that implement CIBA must support one or more of the following methods of identifying the PSU that is to be authenticated using the login_hint_token.

  • User Id: Using a static identifier that is shared by the ASPSP and the PSU. This could include a static identifier issued by the ASPSP (e.g., a user name, card number, account number) or a public identifier that allows the ASPSP to uniquely identify the PSU (e.g., an email address or phone number)
  • Ephemeral User Id: Using a dynamically generated, single use identifier issued by the ASPSP to the PSU. This could be a single use token generated on the PSU's authentication device or communicated to the PSU by any other means.
  • Intent Id: Using an intent Id generated from a POST to a consent resource with the ASPSP (e.g., a POST to /domestic-payment-consents results in a ConsentId being generated) The ASPSP then uses this information to bind the consent to a particular PSU.
  • Id Token: Using a previously issued id_token that identifies the PSU. The ASPSP may limit the use of the id_token to the TPP to which it was issued.

An ASPSP must document on their developer portal, the methods of identifying a PSU the ASPSP supports.

If the ASPSP does not support a specific method of identifying a PSU, the ASPSP must return an authentication error with the error field set to invalid_request.

Prior to creating the login_hint_token the TPP must create a consent. The generated consent id must be passed in the http://openbanking.org.uk/openbanking-intent-id custom claim. This allows the access token that is eventually generated to be bound to a specific consent.

Identifying the PSU Using a User Id

To identify a PSU through a user Id, the TPP must issue login_hint_token in the bc_authorize request that contains:

  • The custom claim http://openbanking.org.uk/sit set to the value UID
  • At least one of the following claims with a value indicating the user Id:
    • sub
    • preferred_username
    • email
    • phone_number

If the ASPSP support identification of the user through a static identifier, it must document on its developer portal the claims that it supports as a static identifier.

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// using login name
{
  "http://openbanking.org.uk/sit": "UID",
  "sub": "scott",
  "http://openbanking.org.uk/openbanking_intent_id": "11bf5b37-e0b8-42e0-8dcf-dc8c4aefc000"
}

// using email address
{
  "http://openbanking.org.uk/sit": "UID",
  "email": "scott@oracle.com",
  "http://openbanking.org.uk/openbanking_intent_id": "11bf5b37-e0b8-42e0-8dcf-dc8c4aefc000"
}

// using phone number
{
  "http://openbanking.org.uk/sit": "UID",
  "phone_number": "00448903748394",
  "http://openbanking.org.uk/openbanking_intent_id": "11bf5b37-e0b8-42e0-8dcf-dc8c4aefc000"
}
Identifying the PSU Using an Ephemeral User Id

To identify a PSU through an ephemeral user Id, the TPP must issue a login_hint_token in the bc_authorize request that contains:

  • The custom claim http://openbanking.org.uk/sit set to the value EUID
  • The claim sub populated with the ephemeral user Id
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{
  "http://openbanking.org.uk/sit": "EUID",
  "sub": "11bf5b37-e0b8-42e0-8dcf-dc8c4aefc000",
  "http://openbanking.org.uk/openbanking_intent_id": "11bf5b37-e0b8-42e0-8dcf-dc8c4aefc000"
}
Identifying the PSU Using an Intent Id

To identify a PSU through an intent Id, the TPP must first create a consent resource with the ASPSP.

In order to initiate authentication, the TPP must lodge a bc_authorize request and then displaying the resulting auth_req_id and intent_id as a QR code which the user would scan using their banking app. The ASPSP would then link the user (who is authenticated in their banking app) with the authentication request.

The TPP must provide a login_hint_token in the bc_authorize request that contains:

  • The custom claim http://openbanking.org.uk/sit set to the value IID
  • The claim http://openbanking.org.uk/openbanking_intent_id set to the value of the intent Id that is being used.
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{
  "http://openbanking.org.uk/sit": "IID",
  "http://openbanking.org.uk/openbanking_intent_id": "11bf5b37-e0b8-42e0-8dcf-dc8c4aefc000"
}

Once the PSU has been authenticated, the TPP is issued another id_token which is bound to the intent_id provided in the login_token_hint.

Identifying the PSU Using a Previously Issued Id Token

To identify a PSU through a previously issued id_token the TPP must issue an id_token_hint containing the id_token in the bc_authorize request.

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{
  "http://openbanking.org.uk/sit": "ID_TOKEN",
  "http://openbanking.org.uk/id_token": "... id token as a JWS ...",
  "http://openbanking.org.uk/openbanking_intent_id": "11bf5b37-e0b8-42e0-8dcf-dc8c4aefc000"
}

Changes to an Intent's Authorized State

A PSU may revoke their consent either through the TPP or directly through the ASPSP. This only applies to long-lived consents:

  • When a PSU does not complete the consent-authorisation flow, the ASPSP must mark the consent as Rejected.
  • When the PSU revokes their consent with the ASPSP, the ASPSP must mark the underlying intent status as Revoked.
  • When the PSU revokes their consent with the TPP, the TPP must make a DELETE request to the consent resource. The ASPSP must delete the resource (possibly as a "soft" delete) and respond to subsequent GET requests with an Http Status of 400.

In each of the above cases, the consent states are terminal i.e. the ASPSP must not allow any further state changes. The ASPSP must not permit any authorisation code grants to be initiated with such a consent.

Effect of Token Expiry on an Intent's Authorized State

An ASPSP may issue an access token and refresh token for a long-lived consent. These tokens may expire before the consent expires. In such a situation, the state of the intent does not change and the ASPSP must not modify the state of the intent.

Consent Re-authentication

Ability to re-authenticate an Authorised consent at any point of time

A TPP may request a PSU to re-authenticate a consent at any point of time for a long-lived consent that is in the Authorised state. This includes before and after the underlying tokens have expired.

An ASPSP must accept a request from a TPP to re-authenticate a consent at any point of time for a long-lived consent that is in the Authorised state. This includes before and after the underlying tokens have expired.

Once a consent re-authentication is successful, the TPP must not use access tokens and refresh tokens that were previously issued for the same consent.

When an ASPSP issues a new access token and refresh token as a result of consent re-authentication, it may invalidate the previously issued access tokens and refresh tokens for the same consent.

Low Friction User Experience

A PSU's consent re-authentication user experience must be aligned with the low friction user experience defined in the guidelines.

Use of Refresh Token

An ASPSP may issue a refresh token along with an access token as a result of consent re-authentication.

When an access token expires, the TPP may attempt to get a new access and refresh token as defined in Section 6 of the OAuth 2.0 specification.

Data Model

Enumerations

OBIE Specifications include various fields of Enumerated data types, where either the values are fixed to a OBIE defined set of alternatives (i.e. Static Enumerations), or flexible with an initial OBIE defined set of alternatives, and ASPSPs can use/extend these alternatives (i.e. Namespaced Enumerations).

While Static Enumerations are listed on each API Specification page, Namespaced Enumerations are captured on the Namespaced Enumerations page.

Common Payload Structure

This section gives an overview of the top level structure for the API payloads for the Open Banking Read/Write APIs.

The data contained within the Data section is documented with each individual API endpoint.

Request Structure

The top level request structure for Open Banking Read/Write APIs:

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{
  "Data": {
    ...
  },
  "Risk": {
  	...
  }
}

Data

The Data section contains the request data for the specific API request.

The structure of this element differs for each API endpoint.

Risk

The Risk section contains risk indicators for the specific API request as provided by the TPP.

The risk indicators contained in this element may be different for each API endpoint.

Response Structure

The top level response structure for Open Banking Read/Write APIs:

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{
  "Data": {
    ...
  },
  "Risk": {
    ...
  },
  "Links": {
    ...
  },
  "Meta": {
    ...
  }
}

In line with the principle of RESTful APIs, the full resource must be replayed as part of the response.

Two additional top-level sections are included in the response for:

  • Links

  • Meta

Error Response Structure

The error response structure for Open Banking Read/Write APIs:

Code Block
languagetext
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firstline1
titlePayment API Response
linenumberstrue
{
  "Code": "...",
  "Id": "...",
  "Message": "...",
  "Errors": [
    {
      "ErrorCode": "...",
      "Message": "...",
      "Path": "...",
      "Url": "..."
    }
  ]
}

UML Diagram

Data Dictionary

Name
Occurrence
XPath
EnhancedDefinition
Class
Codes
Pattern
OBErrorResponse1
OBErrorResponse1An array of detail error codes, and messages, and URLs to documentation to help remediation.OBErrorResponse1

Code1..1OBErrorResponse1/CodeHigh level textual error code, to help categorise the errors.Max40Text

Id0..1OBErrorResponse1/IdA unique reference for the error instance, for audit purposes, in case of unknown/unclassified errors.Max40Text

Message1..1OBErrorResponse1/MessageBrief Error message, e.g., 'There is something wrong with the request parameters provided'Max500Text

Errors1..nOBErrorResponse1/Errors
OBError1

ErrorCode1..1OBErrorResponse1/Errors/ErrorCodeLow level textual error code, e.g., UK.OBIE.Field.MissingOBErrorResponseError1Code

Message1..1OBErrorResponse1/Errors/MessageA description of the error that occurred. e.g., 'A mandatory field isn't supplied' or 'RequestedExecutionDateTime must be in future'
OBIE doesn't standardise this field
Max500Text

Path0..1OBErrorResponse1/Errors/PathRecommended but optional reference to the JSON Path of the field with error, e.g., Data.Initiation.InstructedAmount.CurrencyMax500Text

Url0..1OBErrorResponse1/Errors/UrlURL to help remediate the problem, or provide more information, or to API Reference, or help etcxs:anyURI


Optional Fields

In objects where the value for an optional field is not specified, the field must be excluded from the JSON payload.

In objects where an array field is defined as having 0..n values, the array field must be included in the payload with an empty array.

Code Block
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titleExample Links
{
	"Name": "",             // Incorrect. Exclude the Name field from the payload.
	"Age": 0,               // Incorrect. 0 should not be used to indicate an undefined age.
    "CreditorAccount": {},  // Incorrect. Exclude the CreditorAccount field.
    "Balances": []          // Correct. This is the method of indicating an empty array. Do not suppress the Balance field.
}

The Links section is mandatory and will always contain absolute URIs to related resources, 

The "Self" member is mandatory.

For example:

Code Block
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titleExample Links
  "Links": {
    "Self": "https://api.alphabank.com/open-banking/v3.1/pisp/domestic-payments/58923"
  }

Where an API provides a paginated response, the Links element may also contain the members First, Prev, Next and Last as described in the section Basics / Pagination.

For example:

Code Block
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titleExample Links
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  "Links": {
    "Self": "http://example.com/articles?page[number]=3&page[size]=1",
    "First": "http://example.com/articles?page[number]=1&page[size]=1",
    "Prev": "http://example.com/articles?page[number]=2&page[size]=1",
    "Next": "http://example.com/articles?page[number]=4&page[size]=1",
    "Last": "http://example.com/articles?page[number]=13&page[size]=1"
  }

Meta

The Meta section is mandatory, but may be empty.  An optional member is "TotalPages" which is specified as an integer (int32) and shows how many pages of results (for pagination) are available.

For example:

Code Block
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titleExample Meta
  "Meta": {
    "TotalPages": 13
  }

Usage Examples

The usage examples for the individual APIs are documented in their respective pages.

This section provides usage examples for some repeating patterns that are used by multiple resources.

Pagination Flows

The example below illustrates how an ASPSP may return a paginated response. 

Request

Code Block
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titlePaginated Transaction Request
linenumberstrue
GET /accounts/22289/transactions HTTP/1.1
Authorization: Bearer Az90SAOJklae
x-fapi-auth-date:  Sun, 10 Sep 2017 19:43:31 GMT
x-fapi-customer-ip-address: 104.25.212.99
x-fapi-interaction-id: 93bac548-d2de-4546-b106-880a5018460d
Accept: application/json


Paginated Resource Response

Code Block
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titlePaginated Transaction Response
linenumberstrue
HTTP/1.1 200 OK
x-fapi-interaction-id: 93bac548-d2de-4546-b106-880a5018460d
Content-Type: application/json

{
  "Data": {
    ...
  },
  "Links": {
    "Self": "https://api.alphabank.com/open-banking/v3.1/aisp/accounts/22289/transactions/",
    "Last": "https://api.alphabank.com/open-banking/v3.1/aisp/accounts/22289/transactions?pg=20",    
	"First": "https://api.alphabank.com/open-banking/v3.1/aisp/accounts/22289/transactions/",    
	"Next": "https://api.alphabank.com/open-banking/v3.1/aisp/accounts/22289/transactions?pg=2"
  },
  "Meta": {
    "TotalPages": 20,
	"FirstAvailableDateTime": "2017-05-03T00:00:00+00:00",
	"LastAvailableDateTime": "2017-12-03T00:00:00+00:00"
  }
}


The TPP may follow the links provided in the Links section of the payload to navigate to the first, last, next and previous pages:

Request Next Page of Results

Code Block
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titlePaginated Transaction Request (Next)
linenumberstrue
GET /accounts/22289/transactions?pg=2 HTTP/1.1
Authorization: Bearer Az90SAOJklae
x-fapi-auth-date:  Sun, 10 Sep 2017 19:43:31 GMT
x-fapi-customer-ip-address: 104.25.212.99
x-fapi-interaction-id: 93bac548-d2de-4546-b106-880a5018460d
Accept: application/json


Paginated Resource Response

Code Block
languagejs
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titlePaginated Transaction Response
linenumberstrue
HTTP/1.1 200 OK
x-fapi-interaction-id: 93bac548-d2de-4546-b106-880a5018460d
Content-Type: application/json

{
  "Data": {
    ...
  },
  "Links": {
    "Self": "https://api.alphabank.com/open-banking/v3.1/aisp/accounts/22289/transactions?pg=2",
    "Last": "https://api.alphabank.com/open-banking/v3.1/aisp/accounts/22289/transactions?pg=20",    
	"First": "https://api.alphabank.com/open-banking/v3.1/aisp/accounts/22289/transactions/",    
	"Next": "https://api.alphabank.com/open-banking/v3.1/aisp/accounts/22289/transactions?pg=3",
	"Prev": "https://api.alphabank.com/open-banking/v3.1/aisp/accounts/22289/transactions?pg=1"
  },
  "Meta": {
    "TotalPages": 20,
	"FirstAvailableDateTime": "2017-05-03T00:00:00+00:00",
	"LastAvailableDateTime": "2017-12-03T00:00:00+00:00"
  }
}


Error Flows

This section provides some examples of error scenarios and the expected outputs.

Missing or Expired Access Token

This flow assumes that the following Steps have been completed successfully:

  • Step 1: Request Account Information
  • Step 2: Setup Account Request
  • Step 3: Authorise Consent

The AISP attempts to provide an expired or missing access token to the ASPSP in an attempt to Request Data

Code Block
titleMissing or Expired Access Token
collapsetrue
participant PSU
participant AISP
participant ASPSP Authorisation Server
participant ASPSP Resource Server
 

alt Request data with a missing or expired access-token
AISP <-> ASPSP Resource Server: Establish TLS 1.2 MA
AISP -> ASPSP Resource Server: GET /accounts
ASPSP Resource Server -> AISP: HTTP 401 (Unauthorized)
 
 
AISP -> ASPSP Resource Server: GET /accounts/{AccountId}/transactions
ASPSP Resource Server -> AISP: HTTP 401 (Unauthorized)
 

end alt

Incomplete or Malformed Request Payload

This flow assumes that the following Steps have been completed successfully:

  • Step 1: Request Account Information
  • Step 2: Setup Account Request
  • Step 3: Authorise Consent

The AISP provides a malformed request to the ASPSP in an attempt to setup an Account Request.

Code Block
titleIncomplete or Malformed Request
collapsetrue
participant PSU
participant AISP
participant ASPSP Authorisation Server
participant ASPSP Resource Server
 

alt AISP attempts to setup an account request with a malformed payload
AISP <-> ASPSP Resource Server: Establish TLS 1.2 MA
AISP -> ASPSP Resource Server: POST /account-requests
ASPSP Resource Server -> AISP: HTTP 400 (Bad Request)
 
end alt

Missing or Invalid Access Token Scope

This flow assumes that the following Steps have been completed successfully:

  • Step 1: Request Account Information
  • Step 2: Setup Account Request
  • Step 3: Authorise Consent

The AISP provides a (valid) access token which does not have a valid scope (or link to the correct Permissions) to Request Data

Code Block
titleMissing or Invalid Access Token Scope
collapsetrue
participant PSU
participant AISP
participant ASPSP Authorisation Server
participant ASPSP Resource Server
 

alt Request data with a missing or invalid access-token scope
AISP <-> ASPSP Resource Server: Establish TLS 1.2 MA
AISP -> ASPSP Resource Server: GET /accounts
ASPSP Resource Server -> AISP: HTTP 403 (Forbidden)
 
 
AISP -> ASPSP Resource Server: GET /accounts/{AccountId}/transactions
ASPSP Resource Server -> AISP: HTTP 403 (Forbidden)
 

end alt

Sudden Burst of API Requests

This flow assumes that the following Steps have been completed successfully:

  • Step 1: Request Account Information
  • Step 2: Setup Account Request
  • Step 3: Authorise Consent

The AISP provides a (valid) access token which is used to generate a burst of multiple requests to retrieve an Accounts resource.

The ASPSP may optionally choose to return a 429 Response

Code Block
titleSudden Burst of API Requests
collapsetrue
participant PSU
participant AISP
participant ASPSP Authorisation Server
participant ASPSP Resource Server
  
 
alt AISP attempts to retrieve an Account Resource
AISP <-> ASPSP Resource Server: Establish TLS 1.2 MA
    loop Burst of multiple GET requests
        AISP -> ASPSP Resource Server: GET /accounts/{AccountId}
        opt
            ASPSP Resource Server -> AISP: HTTP 429 (Too Many Requests)
        end
    end
end

Failed Authorisation Consent

This flow assumes that the following Steps have been completed successfully:

  • Step 1: Request Account Information
  • Step 2: Setup Account Request

The Step 3: Authorise Consent Flow fails to succeed due to the PSU providing invalid credentials to the ASPSP, resulting in no Authorization Code being generated.

Code Block
titleFailed Authorization Consent
collapsetrue
participant PSU
participant AISP
participant ASPSP Authorisation Server
participant ASPSP Resource Server
  
note over PSU, ASPSP Resource Server
    Step 1: Request account information
end note
PSU -> AISP: Get account/transaction information
 
note over PSU, ASPSP Resource Server
    Step 2: Setup account request
end note
AISP <-> ASPSP Authorisation Server: Establish TLS 1.2 MA
AISP -> ASPSP Authorisation Server: Initiate Client Credentials Grant
ASPSP Authorisation Server -> AISP: access-token
AISP <-> ASPSP Resource Server: Establish TLS 1.2 MA
AISP -> ASPSP Resource Server: POST /account-requests
ASPSP Resource Server -> AISP: HTTP 201 (Created), AccountRequestId
AISP -> PSU: HTTP 302 (Found), Redirect (AccountRequestId)
 
note over PSU, ASPSP Resource Server
Step 3: Failed authorise consent
end note
PSU -> ASPSP Authorisation Server: Follow redirect (AccountRequestId)
PSU -> ASPSP Authorisation Server: Invalid Credentials
ASPSP Authorisation Server -> PSU: HTTP 302 (Found), Redirect (error)
PSU -> AISP: Follow redirect (error)
AISP -> PSU : Error Response


JSON Error Response


Code Block
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titleBad Request
linenumberstrue
POST /domestic-payment-consents HTTP/1.1
Authorization: Bearer 2YotnFZFEjr1zCsicMWpAA
x-idempotency-key: FRESCO.21302.GFX.20
x-jws-signature: TGlmZSdzIGEgam91cm5leSBub3QgYSBkZXN0aW5hdGlvbiA=..T2ggZ29vZCBldmVuaW5nIG1yIHR5bGVyIGdvaW5nIGRvd24gPw==
x-fapi-auth-date: Sun, 10 Sep 2017 19:43:31 GMT
x-fapi-customer-ip-address: 104.25.212.99
x-fapi-interaction-id: 93bac548-d2de-4546-b106-880a5018460d
Content-Type: application/json
Accept: application/json
 
{
  "Data": {
    "Initiation": {
      "EndToEndIdentification": "FRESCO.21302.GFX.20",
      "InstructedAmount": {
        "Amount": "165.88",
        "Currency": "GBP"
      },
      "CreditorAccount": {
        "SchemeName": "MyImaginaryScheme",
        "Identification": "08080021325698",
        "Name": "ACME Inc",
        "SecondaryIdentification": "0002"
      },
      "RemittanceInformation": {
        "Reference": "FRESCO-101",
        "Unstructured": "Internal ops code 5120101"
      }
    }
  },
  "Risk": {
    "PaymentContextCode": "EcommerceGoods",
    "MerchantCategoryCode": "5967",
    "MerchantCustomerIdentification": "053598653254",
    "DeliveryAddress": {
      "AddressLine": [
        "Flat 7",
        "Acacia Lodge"
      ],
      "StreetName": "Acacia Avenue",
      "BuildingNumber": "27",
      "PostCode": "GU31 2ZZ",
      "TownName": "Sparsholt",
      "CountySubDivision": [
        "Wessex"
      ],
      "Country": "UK"
    }
  }
}



Code Block
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titleError Response
linenumberstrue
HTTP/1.1 400 Bad Request
x-jws-signature: V2hhdCB3ZSBnb3QgaGVyZQ0K..aXMgZmFpbHVyZSB0byBjb21tdW5pY2F0ZQ0K
x-fapi-interaction-id: 93bac548-d2de-4546-b106-880a5018460d
Content-Type: application/json

{
  "Code": "400 BadRequest",
  "Id": "2b5f0fb2-730b-11e8-adc0-fa7ae01bbebc",
  "Message": "Invalid request parameters.",
  "Errors": [
    {
      "ErrorCode": "UK.OBIE.Field.Missing",
      "Message": "Instructed identification is missing",
      "Path": "Data.Initiation.InstructionIdentification",
      "Url": "<url to the api reference for Payment Inititaion API>"
    },
    {
      "ErrorCode": "UK.OBIE.Unsupported.Scheme",
      "Message": "Scheme name supplied is not supported",
      "Path": "Data.Initiation.CreditorAccount.SchemeName",
      "Url": "<url to the online documentation referring supported scheme names>"
    }
  ]
}