Luxembourg ID
Introduction
The Luxembourg ID container facilitates communication with card readers with inserted Luxembourg ID smart card. The JS client library provides function to communicate with the smart card and facilitates integration into a web or native application. This document describes the functionality provided by the Luxembourg ID module
Interface Summary
The Abstract Lux eID interface is summarized in the following snippet:
Each interface will be covered on this wiki, accompanied with example code and response objects.
Get Luxembourg ID container object
For more information on how to configure the T1C-JS client library see Client Configuration. Initialize a gclClient:
Get the Luxembourg ID container service:
Note that we pass both the reader_id,
pin
and pinType
code in this call. Unlike other cards, all communication with the Luxembourg ID card is protected with the PIN/CAN code.
Call a function for the Luxembourg ID container:
For demonstration purpose we will use the aforementioned callback, which only outputs the data and eventual error messages. During integration meaningful functionality should be provided.
The pin should be provided in order to instantiate the container. It's is possible to enforce user PIN entry for each function separately. Providing the PIN at instantiation of the container, means that the PIN will be in the browser session - but not persisted - for the lifetime of the container instance within the browser session.
Obtain the Reader-ID
The constructor for the Luxembourg ID expect as the parameter to be a valid reader-ID. A reader-ID can be obtained from the exposed core functionality, for more information see Core Services. Core services responds with available card-readers, available card in a card-reader, etc. For example: In order to get all connected card-readers, with available cards:
This function call returns:
We notice that a card object is available in the response in the context of a detected reader.
The reader in the example above is iDentiv CL
, has no pin-pad capabilities, and there is a card detected with given ATR and description "Grand Duchy of Luxembourg...".
An ATR (Answer To Reset) identifies the type of a smart-card.
The reader, has a unique ID, reader_id
; this reader_id
must be used in order to request functionalities for the Luxembourg eID card.
This must be done upon instantiation of the container:
All methods for luxeid
will use the selected reader - identified by the reader_id
.
Cardholder Information
The card holder is the person identified using the Luxembourg eID card. It's important to note that all data must be validated in your backend. Data validation can be done using the appropriate certificate (public key).
Biometric Information
Contains all biometric related data, excluding the card holder address and picture. The service can be called:
An example callback:
Response:
Address
Contains the card holder's address. The service can be called:
Response:
Picture
Contains the card holder's picture stored on the smart card. The service can be called:
Response:
Signature Image
Contains an image of the card holder's signature stored on the smart card. The service can be called:
Response:
Certificates
Exposes all the certificates publicly available on the smart card. The following certificates can be found on the card:
Root certificate
Intermediate certificate
Authentication certificate
Non-repudiation certificate
T1C-JS will return the raw base64 certificate, optionally it can also return an object representing the certificate as parsed by PKI.js. To enable parsing, parseCerts
must be set to true
.
Certificate Chain
Root Certificate
Contains the 'root certificate' stored on the smart card. The root certificate is used to sign the 'intermediate certificate'. The service can be called:
Response:
There are 2 root certificates on the card, one is the issuer certificate of the intermediate
Authentication Certificate
Contains the 'authentication certificate' stored on the smart card. The 'authentication certificate' contains the public key corresponding to the private RSA authentication key. The 'authentication certificate' is needed for pin validation, authentication and singing. The service can be called:
Response:
Non-repudiation Certificate
Contains the 'non-repudiation certificate' stored on the smart card. The 'non-repudiation certificate' contains the public key corresponding the private RSA non-repudiation key. The service can be called:
Response:
Data Filter
Filter Card Holder Information
All data on the smart card can be dumped at once, or using a filter. In order to read all data at once:
Response:
The filter can be used to ask a list of custom data containers. For example, we want to read only the 'rn', 'picture' and 'rrn certificate':
Response:
Filter Certificates
All certificates on the smart card can be dumped at once, or using a filter. In order to read all certificates at once:
Response:
The filter can be used to ask a list of custom data containers. For example, we want to read only the 'root-certificate' and the 'rrn-certificate':
Response:
Sign Data
Data can be signed using the Luxembourg ID smart card. To do so, the T1C-GCL facilitates in:
Retrieving the certificate chain (root, inetermediate and non-repudiation certificate)
Perform a sign operation (private key stays on the smart card)
Return the signed hash
To get the certificates necessary for signature validation in your back-end:
Response:
Depending on the connected smart card reader. A sign can be executed in 2 modes:
Using a connected card reader with 'pin-pad' capabilities (keypad and display available)
Using a connected card reader without 'pin-pad' capabilities (no keypad nor display available)
Security consideration: In order to sign a hash, security considerations prefer using a 'pin-pad'.
Sign Hash
When the web or native application is responsible for showing the password input, the following request is used to sign a given hash:
Response is a base64 encoded signed hash:
The 'authentication_reference' property can contain the following values: sha1, sha256, sha512, md5.
Avoid using SHA-1: is deprecated on the interface and will not be available in the future
Calculate Hash
In order to calculate a hash from the data to sign, you need to know the algorithm you will use in order to sign.
You might have noticed the algorithm_reference
property provided in the sign
request.
The algorithm_reference
can be one of the values: md5, sha1, sha256, sha512.
For example, we want the following text to be signed using sha256
:
You can use the following online tool to calculate the SHA256: calculate SHA256
Hexadecimal result:
Notice that the length of the SHA256 is always the same. Now we need to convert the hexadecimal string to a base64-encoded string, another online tool can be used for this example: hex to base64 converter
Base64-encoded result:
Now we can sign the data:
Result:
Verify PIN
Verify PIN without pin-pad
When the web or native application is responsible for showing the password input, the following request is used to verify a card holder PIN:
Response:
Verify PIN - retries left
In order to inform a user upon the PIN retries left, the Luxembourg eID doesn't provide a request to retrieve this information. After an unsuccessful PIN verification, the error code indicates the number of retries left. For example, when executing:
Note that, when the user has at least one retry left,entering a correct PIN resets the PIN retry status
.
For more information about the error codes you can check the Error codes page
Authentication
The T1C is able to authenticate a card holder based on a challenge. The challenge can be:
provided by an external service
provided by the smart card An authentication can be interpreted as a signature use case, the challenge is signed data, that can be validated in a back-end process.
External Challenge
An external challenge is provided in the data property of the following example:
Response:
Take notice that the PIN property can be omitted when using a smart card reader with pin-pad capabilities. The 'algorithm_reference' property can contain the following values: sha1, sha256, sha512, md5.
Generated Challenge
A server generated challenge can be provided to the JavaScript library. In order to do so, an additional contract must be provided with the 'OCV API' (Open Certificate Validation API).
Error Handling
Error Object
The functions specified are asynchronous and always need a callback function. The callback function will reply with a data object in case of success, or with an error object in case of an error. An example callback:
The error object returned:
For the error codes and description, see Status codes.
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