AWS SDK for JavaScript Payment Cryptography Data Client for Node.js, Browser and React Native
npm install @aws-sdk/client-payment-cryptography-dataAWS SDK for JavaScript PaymentCryptographyData Client for Node.js, Browser and React Native.
You use the Amazon Web Services Payment Cryptography Data Plane to manage how encryption keys are used for payment-related transaction processing and associated cryptographic operations. You can encrypt, decrypt, generate, verify, and translate payment-related cryptographic operations in Amazon Web Services Payment Cryptography. For more information, see Data operations in the Amazon Web Services Payment Cryptography User Guide.
To manage your encryption keys, you use the Amazon Web Services Payment Cryptography Control Plane. You can create, import, export, share, manage, and delete keys. You can also manage Identity and Access Management (IAM) policies for keys.
npm install @aws-sdk/client-payment-cryptography-datayarn add @aws-sdk/client-payment-cryptography-datapnpm add @aws-sdk/client-payment-cryptography-dataThe AWS SDK is modulized by clients and commands.
To send a request, you only need to import the PaymentCryptographyDataClient and
the commands you need, for example DecryptDataCommand:
``js`
// ES5 example
const { PaymentCryptographyDataClient, DecryptDataCommand } = require("@aws-sdk/client-payment-cryptography-data");
`ts`
// ES6+ example
import { PaymentCryptographyDataClient, DecryptDataCommand } from "@aws-sdk/client-payment-cryptography-data";
To send a request, you:
- Initiate client with configuration (e.g. credentials, region).
- Initiate command with input parameters.
- Call send operation on client with command object as input.destroy()
- If you are using a custom http handler, you may call to close open connections.
`js
// a client can be shared by different commands.
const client = new PaymentCryptographyDataClient({ region: "REGION" });
const params = { /* input parameters / };
const command = new DecryptDataCommand(params);
`
#### Async/await
We recommend using await
operator to wait for the promise returned by send operation as follows:
`js`
// async/await.
try {
const data = await client.send(command);
// process data.
} catch (error) {
// error handling.
} finally {
// finally.
}
Async-await is clean, concise, intuitive, easy to debug and has better error handling
as compared to using Promise chains or callbacks.
#### Promises
You can also use Promise chaining
to execute send operation.
`js`
client.send(command).then(
(data) => {
// process data.
},
(error) => {
// error handling.
}
);
Promises can also be called using .catch() and .finally() as follows:
`js`
client
.send(command)
.then((data) => {
// process data.
})
.catch((error) => {
// error handling.
})
.finally(() => {
// finally.
});
#### Callbacks
We do not recommend using callbacks because of callback hell,
but they are supported by the send operation.
`js`
// callbacks.
client.send(command, (err, data) => {
// process err and data.
});
#### v2 compatible style
The client can also send requests using v2 compatible style.
However, it results in a bigger bundle size and may be dropped in next major version. More details in the blog post
on modular packages in AWS SDK for JavaScript
`ts
import * as AWS from "@aws-sdk/client-payment-cryptography-data";
const client = new AWS.PaymentCryptographyData({ region: "REGION" });
// async/await.
try {
const data = await client.decryptData(params);
// process data.
} catch (error) {
// error handling.
}
// Promises.
client
.decryptData(params)
.then((data) => {
// process data.
})
.catch((error) => {
// error handling.
});
// callbacks.
client.decryptData(params, (err, data) => {
// process err and data.
});
`
When the service returns an exception, the error will include the exception information,
as well as response metadata (e.g. request id).
`js`
try {
const data = await client.send(command);
// process data.
} catch (error) {
const { requestId, cfId, extendedRequestId } = error.$metadata;
console.log({ requestId, cfId, extendedRequestId });
/**
* The keys within exceptions are also parsed.
* You can access them by specifying exception names:
* if (error.name === 'SomeServiceException') {
* const value = error.specialKeyInException;
* }
*/
}
Please use these community resources for getting help.
We use the GitHub issues for tracking bugs and feature requests, but have limited bandwidth to address them.
- Visit Developer Guide
or API Reference.
- Check out the blog posts tagged with aws-sdk-js
on AWS Developer Blog.
- Ask a question on StackOverflow and tag it with aws-sdk-js.
- Join the AWS JavaScript community on gitter.
- If it turns out that you may have found a bug, please open an issue.
To test your universal JavaScript code in Node.js, browser and react-native environments,
visit our code samples repo.
This client code is generated automatically. Any modifications will be overwritten the next time the @aws-sdk/client-payment-cryptography-data` package is updated.
To contribute to client you can check our generate clients scripts.
This SDK is distributed under the
Apache License, Version 2.0,
see LICENSE for more information.
DecryptData
Command API Reference / Input / Output
EncryptData
Command API Reference / Input / Output
GenerateAs2805KekValidation
Command API Reference / Input / Output
GenerateCardValidationData
Command API Reference / Input / Output
GenerateMac
Command API Reference / Input / Output
GenerateMacEmvPinChange
Command API Reference / Input / Output
GeneratePinData
Command API Reference / Input / Output
ReEncryptData
Command API Reference / Input / Output
TranslateKeyMaterial
Command API Reference / Input / Output
TranslatePinData
Command API Reference / Input / Output
VerifyAuthRequestCryptogram
Command API Reference / Input / Output
VerifyCardValidationData
Command API Reference / Input / Output
VerifyMac
Command API Reference / Input / Output
VerifyPinData