# BasisTheory TypeScript Library [![fern shield](https://img.shields.io/badge/%F0%9F%8C%BF-Built%20with%20Fern-brightgreen)](https://buildwithfern.com?utm_source=github&utm_medium=github&utm_campaign=readme&utm_source=https%3A%2F%2Fgithub.com%2FBasis-Theory%2Fnode-sdk) [![npm shield](https://img.shields.io/npm/v/@basis-theory/node-sdk)](https://www.npmjs.com/package/@basis-theory/node-sdk) The BasisTheory TypeScript library provides convenient access to the BasisTheory APIs from TypeScript. ## Table of Contents - [Documentation](#documentation) - [Installation](#installation) - [Reference](#reference) - [Usage](#usage) - [Request and Response Types](#request-and-response-types) - [Exception Handling](#exception-handling) - [Pagination](#pagination) - [Advanced](#advanced) - [Additional Headers](#additional-headers) - [Additional Query String Parameters](#additional-query-string-parameters) - [Retries](#retries) - [Timeouts](#timeouts) - [Aborting Requests](#aborting-requests) - [Access Raw Response Data](#access-raw-response-data) - [Runtime Compatibility](#runtime-compatibility) - [Contributing](#contributing) - [File Uploads](#file-uploads) - [Binary Response](#binary-response) ## Documentation API reference documentation is available [here](https://api.basistheory.com). ## Installation ```sh npm i -s @basis-theory/node-sdk ``` ## Reference A full reference for this library is available [here](https://github.com/Basis-Theory/node-sdk/blob/HEAD/./reference.md). ## Usage Instantiate and use the client with the following: ```typescript import { BasisTheoryClient } from "@basis-theory/node-sdk"; const client = new BasisTheoryClient({ apiKey: "YOUR_API_KEY", correlationId: "YOUR_CORRELATION_ID" }); await client.tenants.self.get(); ``` ## Request and Response Types The SDK exports all request and response types as TypeScript interfaces. Simply import them with the following namespace: ```typescript import { BasisTheory } from "@basis-theory/node-sdk"; const request: BasisTheory.ApplicationsListRequest = { ... }; ``` ## Exception Handling When the API returns a non-success status code (4xx or 5xx response), a subclass of the following error will be thrown. ```typescript import { BasisTheoryError } from "@basis-theory/node-sdk"; try { await client.tenants.self.get(...); } catch (err) { if (err instanceof BasisTheoryError) { console.log(err.statusCode); console.log(err.message); console.log(err.body); console.log(err.rawResponse); } } ``` ## Pagination List endpoints are paginated. The SDK provides an iterator so that you can simply loop over the items: ```typescript import { BasisTheoryClient } from "@basis-theory/node-sdk"; const client = new BasisTheoryClient({ apiKey: "YOUR_API_KEY", correlationId: "YOUR_CORRELATION_ID" }); const response = await client.applications.list(); for await (const item of response) { console.log(item); } // Or you can manually iterate page-by-page let page = await client.applications.list(); while (page.hasNextPage()) { page = page.getNextPage(); } ``` ## Advanced ### Additional Headers If you would like to send additional headers as part of the request, use the `headers` request option. ```typescript const response = await client.tenants.self.get(..., { headers: { 'X-Custom-Header': 'custom value' } }); ``` ### Additional Query String Parameters If you would like to send additional query string parameters as part of the request, use the `queryParams` request option. ```typescript const response = await client.tenants.self.get(..., { queryParams: { 'customQueryParamKey': 'custom query param value' } }); ``` ### Retries The SDK is instrumented with automatic retries with exponential backoff. A request will be retried as long as the request is deemed retryable and the number of retry attempts has not grown larger than the configured retry limit (default: 2). A request is deemed retryable when any of the following HTTP status codes is returned: - [408](https://developer.mozilla.org/en-US/docs/Web/HTTP/Status/408) (Timeout) - [429](https://developer.mozilla.org/en-US/docs/Web/HTTP/Status/429) (Too Many Requests) - [5XX](https://developer.mozilla.org/en-US/docs/Web/HTTP/Status/500) (Internal Server Errors) Use the `maxRetries` request option to configure this behavior. ```typescript const response = await client.tenants.self.get(..., { maxRetries: 0 // override maxRetries at the request level }); ``` ### Timeouts The SDK defaults to a 60 second timeout. Use the `timeoutInSeconds` option to configure this behavior. ```typescript const response = await client.tenants.self.get(..., { timeoutInSeconds: 30 // override timeout to 30s }); ``` ### Aborting Requests The SDK allows users to abort requests at any point by passing in an abort signal. ```typescript const controller = new AbortController(); const response = await client.tenants.self.get(..., { abortSignal: controller.signal }); controller.abort(); // aborts the request ``` ### Access Raw Response Data The SDK provides access to raw response data, including headers, through the `.withRawResponse()` method. The `.withRawResponse()` method returns a promise that results to an object with a `data` and a `rawResponse` property. ```typescript const { data, rawResponse } = await client.tenants.self.get(...).withRawResponse(); console.log(data); console.log(rawResponse.headers['X-My-Header']); ``` ### Runtime Compatibility The SDK works in the following runtimes: - Node.js 18+ - Vercel - Cloudflare Workers - Deno v1.25+ - Bun 1.0+ - React Native ### Customizing Fetch Client The SDK provides a way for you to customize the underlying HTTP client / Fetch function. If you're running in an unsupported environment, this provides a way for you to break glass and ensure the SDK works. ```typescript import { BasisTheoryClient } from "@basis-theory/node-sdk"; const client = new BasisTheoryClient({ ... fetcher: // provide your implementation here }); ``` ## Contributing While we value open-source contributions to this SDK, this library is generated programmatically. Additions made directly to this library would have to be moved over to our generation code, otherwise they would be overwritten upon the next generated release. Feel free to open a PR as a proof of concept, but know that we will not be able to merge it as-is. We suggest opening an issue first to discuss with us! On the other hand, contributions to the README are always very welcome! ## File Uploads You can upload files using the client: ```typescript import { createReadStream } from "fs"; import { BasisTheoryClient } from "@basis-theory/node-sdk"; const client = new BasisTheoryClient({ apiKey: "YOUR_API_KEY", correlationId: "YOUR_CORRELATION_ID" }); await client.documents.upload({}); ``` The client accepts a variety of types for file upload parameters: * Stream types: `fs.ReadStream`, `stream.Readable`, and `ReadableStream` * Buffered types: `Buffer`, `Blob`, `File`, `ArrayBuffer`, `ArrayBufferView`, and `Uint8Array` ### Metadata You can configure metadata when uploading a file: ```typescript const file: Uploadable.WithMetadata = { data: createReadStream("path/to/file"), filename: "my-file", // optional contentType: "audio/mpeg", // optional contentLength: 1949, // optional }; ``` Alternatively, you can upload a file directly from a file path: ```typescript const file : Uploadable.FromPath = { path: "path/to/file", filename: "my-file", // optional contentType: "audio/mpeg", // optional contentLength: 1949, // optional }; ``` The metadata is used to set the `Content-Length`, `Content-Type`, and `Content-Disposition` headers. If not provided, the client will attempt to determine them automatically. For example, `fs.ReadStream` has a `path` property which the SDK uses to retrieve the file size from the filesystem without loading it into memory. ## Binary Response You can consume binary data from endpoints using the `BinaryResponse` type which lets you choose how to consume the data: ```typescript const response = await client.documents.data.get(...); const stream: ReadableStream = response.stream(); // const arrayBuffer: ArrayBuffer = await response.arrayBuffer(); // const blob: Blob = response.blob(); // const bytes: Uint8Array = response.bytes(); // You can only use the response body once, so you must choose one of the above methods. // If you want to check if the response body has been used, you can use the following property. const bodyUsed = response.bodyUsed; ```
Save binary response to a file
Node.js
ReadableStream (most-efficient) ```ts import { createWriteStream } from 'fs'; import { Readable } from 'stream'; import { pipeline } from 'stream/promises'; const response = await client.documents.data.get(...); const stream = response.stream(); const nodeStream = Readable.fromWeb(stream); const writeStream = createWriteStream('path/to/file'); await pipeline(nodeStream, writeStream); ```
ArrayBuffer ```ts import { writeFile } from 'fs/promises'; const response = await client.documents.data.get(...); const arrayBuffer = await response.arrayBuffer(); await writeFile('path/to/file', Buffer.from(arrayBuffer)); ```
Blob ```ts import { writeFile } from 'fs/promises'; const response = await client.documents.data.get(...); const blob = await response.blob(); const arrayBuffer = await blob.arrayBuffer(); await writeFile('output.bin', Buffer.from(arrayBuffer)); ```
Bytes (UIntArray8) ```ts import { writeFile } from 'fs/promises'; const response = await client.documents.data.get(...); const bytes = await response.bytes(); await writeFile('path/to/file', bytes); ```
Bun
ReadableStream (most-efficient) ```ts const response = await client.documents.data.get(...); const stream = response.stream(); await Bun.write('path/to/file', stream); ```
ArrayBuffer ```ts const response = await client.documents.data.get(...); const arrayBuffer = await response.arrayBuffer(); await Bun.write('path/to/file', arrayBuffer); ```
Blob ```ts const response = await client.documents.data.get(...); const blob = await response.blob(); await Bun.write('path/to/file', blob); ```
Bytes (UIntArray8) ```ts const response = await client.documents.data.get(...); const bytes = await response.bytes(); await Bun.write('path/to/file', bytes); ```
Deno
ReadableStream (most-efficient) ```ts const response = await client.documents.data.get(...); const stream = response.stream(); const file = await Deno.open('path/to/file', { write: true, create: true }); await stream.pipeTo(file.writable); ```
ArrayBuffer ```ts const response = await client.documents.data.get(...); const arrayBuffer = await response.arrayBuffer(); await Deno.writeFile('path/to/file', new Uint8Array(arrayBuffer)); ```
Blob ```ts const response = await client.documents.data.get(...); const blob = await response.blob(); const arrayBuffer = await blob.arrayBuffer(); await Deno.writeFile('path/to/file', new Uint8Array(arrayBuffer)); ```
Bytes (UIntArray8) ```ts const response = await client.documents.data.get(...); const bytes = await response.bytes(); await Deno.writeFile('path/to/file', bytes); ```
Browser
Blob (most-efficient) ```ts const response = await client.documents.data.get(...); const blob = await response.blob(); const url = URL.createObjectURL(blob); // trigger download const a = document.createElement('a'); a.href = url; a.download = 'filename'; a.click(); URL.revokeObjectURL(url); ```
ReadableStream ```ts const response = await client.documents.data.get(...); const stream = response.stream(); const reader = stream.getReader(); const chunks = []; while (true) { const { done, value } = await reader.read(); if (done) break; chunks.push(value); } const blob = new Blob(chunks); const url = URL.createObjectURL(blob); // trigger download const a = document.createElement('a'); a.href = url; a.download = 'filename'; a.click(); URL.revokeObjectURL(url); ```
ArrayBuffer ```ts const response = await client.documents.data.get(...); const arrayBuffer = await response.arrayBuffer(); const blob = new Blob([arrayBuffer]); const url = URL.createObjectURL(blob); // trigger download const a = document.createElement('a'); a.href = url; a.download = 'filename'; a.click(); URL.revokeObjectURL(url); ```
Bytes (UIntArray8) ```ts const response = await client.documents.data.get(...); const bytes = await response.bytes(); const blob = new Blob([bytes]); const url = URL.createObjectURL(blob); // trigger download const a = document.createElement('a'); a.href = url; a.download = 'filename'; a.click(); URL.revokeObjectURL(url); ```
Convert binary response to text
ReadableStream ```ts const response = await client.documents.data.get(...); const stream = response.stream(); const text = await new Response(stream).text(); ```
ArrayBuffer ```ts const response = await client.documents.data.get(...); const arrayBuffer = await response.arrayBuffer(); const text = new TextDecoder().decode(arrayBuffer); ```
Blob ```ts const response = await client.documents.data.get(...); const blob = await response.blob(); const text = await blob.text(); ```
Bytes (UIntArray8) ```ts const response = await client.documents.data.get(...); const bytes = await response.bytes(); const text = new TextDecoder().decode(bytes); ```