App Remote Sample User Is Not Logged In Spotify Sdk

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InitiateSession (with: requestedScopes, options:. Default) to ask the user to sign in whether on safari (if Spotify isn’t installed) or in the app but every time I try to sign in the window keeps closing. This is also true for one of your sample Spotify App Remote projects on your IOS sdk demo projects on github, the SPTLoginSampleAppSwift. This is the error that I keep on receiving. Spotify App Remote. Packages; Package Description; com.spotify.android.appremote.api: com.spotify.android.appremote.api.error.

Six months ago, when we launched our Web API, we provided twelve endpoints through which developers could retrieve Spotify catalog data. Today the API has 40 distinct endpoints and more are being added all the time. In this post, I’d like to take you on a brief tour of the API and show you some of the programs that have already been developed with it.

Our API is what is commonly known as a RESTful API. Basically it is an interface that programs can use to retrieve and manage Spotify data over the internet. The Web API uses the same HTTP protocol that’s used by every internet browser. In fact, you can access the API directly from your own browser. Try clicking this link and see what happens:

You should get back a page of data, in JSON format, which looks something like this:

(What you actually see depends a little on your browser settings and how it is set to handle JSON content. If you’re using Chrome, you can use the JSONView plugin to see a nicely formatted view of the content.)

What we have just done through our browser is to ask the Web API for information about an album — specifically the album with the Spotify ID “4aawyAB9vmqN3uQ7FjRGTy”. What we have got back is basic information about that album, including:

  • Its name: “Global Warming”
  • Its artist’s name: “Pitbull”
  • A list of its tracks (with links to more information about them)
  • Links to cover art for the album (in various sizes)
  • Links that play the album on Spotify, and
  • Information about the album like its available markets, its copyright holder, Universal Product Code, popularity on Spotify, release date, and genre.

You can make similar calls through the Web API to retrieve information from the Spotify catalog about artists, tracks and playlists. There is a huge amount of data available, and the best part is that it’s free to access.

Retrieving data in your browser like this is not particularly useful unless you just want to check that the API is working. The API is really designed to be accessed programmatically and the fact that it returns data in JSON (JavaScript Object Notation) format is very helpful in this regard. JSON is a common, language-independent format and code for parsing JSON data is readily available for a large variety of programming languages.

Let’s take a look at a simple program that uses the Web API. Here is a program that uses the Web API’s search endpoint to retrieve cover art:

This program uses HTML, CSS and JavaScript to do its work. Enter the name of an artist and see what happens.

Within the JavaScript, a call is made to the search endpoint passing the artist’s name that you entered and asking for any matching albums. When the JSON result comes back it’s parsed to extract the links to the albums. Then a second set of calls is made to get each album’s main cover art image.

The search endpoint that this program uses is one of the more popular endpoints in our Web API. Through that endpoint you can get information about more than 2 million artists, 4 million albums, 30 million tracks, and 1.5 billion playlists across all of Spotify’s 50-plus markets.

Just by retrieving data through the Web API and presenting it to the user you can create interesting programs. Here’s an example that combines artist images with data about artist relationships, popularity, and top tracks to create a fascinating tool that encourages users to discover new artists and new music:

You can hover over an artist’s picture to hear 30 second clips of their music; click a picture to expand the tree; and enter an artist’s name or genre to “seed” a new tree. The artists are ranked by popularity, so clicking an artist towards the bottom of a column leads you ever on into hipster territory. In the right sidebar you can find links to the top tracks by the currently selected artist: hovering over a track lets you browse through the artists popular music, and clicking on a track opens the song in a Spotify player.

This application uses several popular Web API endpoints and makes use of several popular, useful, freely available JavaScript libraries: d3, Google Gauge Charts, geoplugin, and freegeoip.

The code for Artist Explorer is open-source and is available on GitHub. You can view the full source code to see how the program has been implemented and you can fork the existing project if you want to contribute to it. And, of course, you can copy parts of the code to use in your own projects.

It’s easy to retrieve data through the Web API but what about retrieving personal data about a user and managing that data? In this case we need to be a bit more careful. For one thing we need to securely identify the user and for another we need to get the user’s permission to access and manipulate their data. In this case we must use OAuth (an open standard for authorization) to get the job done.

Unlike our previous search example which we ran straight from our browser (and which, behind the scenes, used an HTTP GET request to do its business), a typical OAuth-based call to the Web API is a little more complex. We can show how such a call looks by showing it as a cURL command (cURL is a popular command-line tool for transferring data to and from a server):

In this example we using the Web API’s Create a playlist endpoint to create for user called “chris” a new public playlist with the name “NewPlaylist”. The name of the user is included in the URL, while the name of the playlist and its public/private status is specified in the body of the POST request.

Perhaps the most interesting thing here is the Bearer token (also called an “access token”) that we are passing in the header of the request. (That’s the string “QB0zg…eF9U”. It’s actually a long string of characters that encode information about the user and what access permissions the user has granted.) It’s necessary to pass a valid token in a request to this particular endpoint otherwise the request will fail.

So where did that access token come from?

To get an access token that a program can pass in calls to the Web API, the developer first needs to register the program at the Spotify Developer website. When the program has been registered, a Client ID and a Client Secret key will be generated and displayed on the application details page:

Those are two things that the developer will need to use in the code of their program. When the program is running, the ID and secret will be passed in calls to the Spotify Accounts service. It is the Spotify Accounts service that actually handles the authentication of the user and seeks the user’s permission to access data.

Exactly how the program interacts with the Spotify Accounts service depends on which OAuth flow is being followed. There are three different flows available to developers, each designed to meet different needs. All three flows are all fully documented in our Web API Authorization Guide. Here we describe the most comprehensive flow: the Authorization Code flow.

This flow starts when the developer’s program makes a call to the Spotify Accounts service. Along with the call, the program passes along a list of “scopes“. The scopes define both what user data that the program wants to access and what it wants to do with that data. In response, the Spotify Accounts service displays to the user a list of the data that the program wants access to, based on the scopes. (The Spotify Accounts service also prompts the user to log in to Spotify, if necessary.)

When the user clicks “Okay”, the Spotify Accounts service returns to the developer’s program via a previously supplied callback address, passing a temporary code. The program can now use that code, along with its Client ID and Client secret, in a second call to the Spotify Accounts service to get an access token.

One extra advantage of using this flow — the Authorization Code flow — is that from this second call to the Accounts service, the program also gets back a “refresh token” which can be used later to refresh the access token when it expires. That means that it is possible to create long-running programs that only require the user to log in once the first time they are used.

(There is another hidden benefit of supplying access tokens in calls to the Web API, even to endpoints that do not require them: calls with access tokens get higher rate limits. If your program is likely to make many calls in quick succession, it is a good idea to supply a valid access token to make sure that all those calls get through.)

A Playlist Miner

When a program can supply a valid access token it has more power to do some really interesting things through the Web API. For one thing, it can now retrieve and manage a user’s playlists, and it can create new ones. Let’s look at a web application that does just that:

When you open this application you will see that it first asks you to “Log in with Spotify”. You can log in with either a free or a premium Spotify account, it does not matter which. When the main page opens, enter a keyword string, like “workout” in the box, then click “Find Playlists”:

Playlist Miner uses the Web API’s Search for a playlist endpoint to retrieve playlists from Spotify that include the entered keyword in their title. Up to 1000 playlists are retrieved. Next Playlist Miner retrieves the tracks for those playlists using the Get a playlist’s tracks endpoint and starts counting how often each track occurs, ranking them by frequency.

(As an aside, whenever I have demonstrated this application it is at this point that people start trying to “shout” their favorite artists and songs to the top of the list!)

When Playlist Miner has completed its analysis, it offers you the option to save the 100-track playlist it has made to Spotify. If you choose that option, the application uses the Create a playlist and the Add tracks to a playlist endpoints (both of which require an OAuth access token) to add the playlist to your Spotify account.

Playlist Miner is not just a quick and easy way to make an ad hoc playlist but also demonstrates how, with a little thought, calls to the Web API endpoint can be combined to create a remarkably effective application. As with Artist Explorer, the code for Playlist Miner is available from GitHub under an open source license.

The Spotify Developer Website provides a lot of useful information about the Web API, including comprehensive user guides, tutorials, and reference manuals. If you are one of those people who like to begin at the top and work down, then start the Web API home page. If, on the other hand you like to dive straight into code, skip to our Code Examples page where you will find links to many code examples and wrappers for a variety of languages.

There are several interesting features at the website that will help you to develop your own programs. For example, there is an Application Showcase where you can find a gallery of programs that use the Web API, including both Artist Explorer and Playlist Miner. You can submit your own apps for inclusion.

In the Showcase, applications are classified by the APIs and SDKs they use. It’s a place to see what others are creating and to get inspiration. Many of the featured programs have open source licenses and you can find links to the source code in the descriptions. Looking through the source gives you a close up view of how to code for the Web API and, because many applications have open source licenses, you are free to copy the code and use it as the basis of your own endeavors. or to fork and contribute to an existing project.

Also at the site you will find a fully-featured Web API Console where you can interactively test all the Web API endpoints.

The console has full support for all parameters, field filters, and request body data that’s needed in each call, shows default values, and you can ask it to provide sample data if you just want to test a random call. The console fully supports OAuth tokens and the scopes that you need to specify when requesting user data and, after you have tested your call, you get to see the full JSON responses, with HTTP headers and status codes, along with the matching cURL syntax. You can bookmark any particular call.

We send a regular newsletter to our developer community, highlighting new additions and updates to the Web API. It’s worth signing up to if you would like to keep abreast of what’s new. You will find a sign-up form on the Developer Website home page.

The Developer website also has full documentation for all the tools that Spotify makes freely available to independent developers. As well as the Web API, they include two very popular HTML widgets, the Play Button and the Follow Button, and our two SDKs: the Android SDK and the iOS SDK. The widgets are designed to help web developers and bloggers quickly add Spotify functionality to the site, while the SDKs make it possible for developers to create streaming applications for the popular mobile platforms. Let’s take a look at some ways these tools can be combined:

We haven’t mentioned the Spotify Echo Nest API yet. It’s another API that’s available from Spotify, with many, many endpoints that return a broad set of information about both artists and songs. It works well with the Web API, and indeed many of the applications in our Developer Showcase use both APIs together.

When you use our tools you need to pay close attention to some legally binding terms and conditions:

  • Developer Terms of Use (covers the Web API and the SDKs)
  • Widgets Terms of Use (covers the Play and Follow buttons)

These documents are worth reading carefully if you are planning to create a program and make it available to others. We understand that these two documents can seem a little overwhelming but please understand that in many cases Spotify licenses its content from other rights holders and we are bound by the conditions in those licenses.

We have a flowchart at our developer website which provides an informal overview of the things we permit. The flowchart will help you understand, for example, under what conditions you can build a commercial application that you can sell, or sell advertising or sponsorship around.

Behind the scenes we are working hard to develop endpoints that open up even more Spotify content to the world and to ensuring that the API remains fast and capable of handling ever-increasing volumes of requests. So far the service has proven itself to be both stable and reliable: in-house we already use the Web API behind key features in several of our products, and many of our commercial partners are already using the Web API in their own development. Independent developers are also starting to discover the power of the API to enrich their applications with music and music metadata.

Tags: JSON, REST API, Spotify Accounts, Web API, web services

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Bitcoin nowadays is not only a cryptocurrency or a digital payment system. Actually, thanks to its unique features bitcoin has become a real instrument for investment, saving and even earning more money. In this article we want to talk about 3 most popular bitcoin app SDK, that can help you to develop your own app.

Thank their functionality you can create bitcoin wallet, a tool for investors, bitcoin game or any other app connected with this cryptocurrency. Also to check the popularity of analyzed SDKs our team of mobile app developers created three real examples of bitcoin wallets. See them below

Blockchain is regarded as the most popular bitcoin wallet in the world. Nowadays more than 14 million wallets are registered in BC worldwide. Moreover, Blockchain has a full stack of free APIs for developers, so we start our analysis with it.

Supported platforms: Android, iOS, Windows, Mac OS, Linux

Blockchain is very popular service. It supports many programming languages in form of libraries for its API (Python, Java, NET, Ruby, PHP, Node etc.).

Service uses two different API keys:

  • Receive Payments V2 API KEY: an easy way for websites to receive payments in bitcoins. This option is completely free and safe. It is ideal for business and personal using.
  • Blockchain Wallet APIKEY: full access to all functions of this service like creating a wallet, making payments, sending transactions, address management and so on.

To receive any of the keys one must request API from BC. The application contains a name of person/organization, e-mail, and URL of the website or app.

This process is supposed to exclude different ways of fraud or using keys for unfair purposes. So that in the request you should also describe what are you going to use Blockchain service for.Requests for API keys usually are accepted or denied within 2–3 business days.

Blockchain has its own clients (apps) for Android and iOS. Those are very successful. For instance, Blockchain’s Bitcoin Wallet was downloaded more than million times on Google Play. Besides New York Times and the Wall Street Journal put it amongst the world’s most popular bitcoin wallets.

Pricing: free

Our sample:

On GitHub, you can find our sample app based on Blockchain API. It is using Java library from Blockchain.

The application has two main functions:

  • Create a wallet.
  • Exchange rates for bitcoin.

Get source code and explore Blockchain

BitcoinJ SDKis cross-platform SDK (Java, JavaScript) for working with Bitcoin system. Written by Mike Hearn, BitCoinJ is more lightweight and accessible version of the original Bitcoin client. The project has full documentation, which allowed many large Bitcoin apps and services to use this SDK.

Supported platforms: Windows, Android

BitcoinJ is implemented in Java but can be used from any JVM-compatible language, including C++, JavaScript, Ruby, Python, and others.

This SDK allows users to work with TestNet3 (official bitcoin test network), MainNet (original and main network for Bitcoin transactions) and also to set up a private server.

BitcoinJ doesn’t require registration because in this case bitcoin wallet is created on the device. So that it doesn’t need consumers’ personal information (private key) and therefore SDK is very safe.

BitcoinJ has very rich functionality. It includes creating a new wallet with password encryption, working with existing wallet, checking balance, sending and receiving bitcoins. Also, this SDK can provide developers with needed tools for exchange rate conversion, encryption, possibility to get a lot of information about transactions, to get unconfirmed transactions, to customize the process of confirming transactions etc.

Service has own SPV mode. It enables users to download only part of bitcoin blockchains and work with it. As a result, users don’t have to download full blockchain. This is very comfortable for mobile devices because full blockchain size reached 100GB in December 2016 and it doubles in size every year.

BitcoinJ SDK has its own open-source application. Based on it Bitcoin Wallet now has over 1 million downloads on Google Play.

Pricing: free

Our sample:

On GitHub, you can find our sample app based on BitcoinJ SDK. The application works with test network TestNet3 and contains multiple features:

  • Create a wallet
  • Check balance
  • Receive and send transactions
  • Free test bitcoins
  • Generate your wallet address QR code
  • Scan recipient’s wallet address QR code

The example uses additional libraries like Android Annotations, QRGen, and Zxing.

Note: When you launch application first time it may take up to 15 minutes, but it happens only once. So be patient and drink some tea or coffee meanwhile.

Get source code and explore BitcoinJ

Coinbase SDK is cross-platform SDK (Java) for working with bitcoin system. Also, this name stays for American digital asset exchange company. Coinbase operates exchanges of digital assets with fiat currencies in 32 countries, and bitcoin transactions and storage in 190 countries worldwide.

Supported platforms: Android, iOS

Official Coinbase libraries include Java, Ruby, Python, Node.js, and PHP.

This SDK enables users to get information about the current exchange rate of bitcoin (and history of its changes) or other currencies without registration.

Two methods are used in Coinbase for authentication:

  • API KEY. Can be created and activated in your API settings on the website. In this case, you can access your own account or merchant orders only;
  • Redirect to the official site using OAuth token. This method allows users to access their personal accounts and manage wallets and works well for mobile apps.

After registration is completed all types of operations can be performed including buying and selling bitcoins for other currencies, sending transactions etc. Though some functionality is limited and wouldn’t work in all countries.

Coinbase has official apps on Google Play and iOS. Its Bitcoin Wallet for Android has now over million downloads what brings it into tops of similar apps.

By the way, Coinbase allows users to work not only with bitcoins but also with other cryptocurrencies like ethereum and litecoin.

Pricing: free.

Our sample:

Our sample application on Github is using the Coinbase Android SDK. The app works with official Coinbase Wallet and contains next features:

  • Authorization
  • Check balance
  • Send and receive bitcoins
  • Current exchange rate of bitcoin
  • Currency/bitcoin exchange rates calculator

This sample app also uses RxAndroid library.

Get the source code and exploreCoinbase

We decided to sum up the possibilities of SDK named above. As we can see from our spreadsheet the functionality is almost the same, however, there are some differences.

Blockchain

BitcoinJ

Coinbase

Supported

programming languages

Python, Java, NET, Ruby, PHP, Node

Java, Javascript (also works with any JVM-compatible languages)

Python, Java, Ruby, PHP, Node.js

Price

Free

Supported cryptocurrencies

Only bitcoin

Only bitcoin

Bitcoin, ethereum, and litecoin.

Wallet API

+

+

+

Buy/sell and send/receive bitcoin

+

+

+

SPV mode

+

Private Key Control

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Notifications about transactions

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On the whole Bitcoin Wallets created with SDK listed above are very successful and can be even called the leaders of the app stores. Our developers tried each of them and proved that SDKs are also quite easy to use.

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