While Ethereum has been the platform of choice for writing dApps, has really low transaction fees and is much faster than other blockchains (including Ethereum). Stellar arguably So I began to wonder what it would look like to actually build a decentralized version of a forum like HackerNews or Reddit using the Stellar . Here’s the big picture of how I envisioned it to work: blockchain Let’s see how we would go about implementing that. First, we need to on the Stellar testnet. What’s a testnet? In the simplest terms, it’s a blockchain intended for testing where you don’t incur any real fees. In this case, we’ll load up our test account with 10k fake lumens for testing. create an account Next, we will build a small JavsScript client which will allow the user to submit their post on the app. We could directly take this post and have the user send it to our app’s account by putting it in the transaction’s memo field. Although it turns out Stellar’s transaction only allows limited memo formats — Text (UTF-8 string of up to 28 bytes), ID (Unsigned 64-bit integer) or Hash (32-byte hash in hex format). So storing a large amount of text or JSON is out of the question. Send it to IPFS That’s where IPFS comes in — a P2P protocol and network designed to store and share content in a distributed file system across all devices (think of it as a love child of git and BitTorrent). We would take that data and store it in a JSON object in the IPFS. import ipfsAPI from 'ipfs-api' // I'm just using an IPFS gateway here for testing but in a real-world setting, we would run our own IPFS node so we can persist dataconst ipfs = ipfsAPI({ host: 'ipfs.infura.io', port: 5001, protocol: 'https' });const post = JSON.stringify({title: "'So exited!!!', content: 'This is my first post on the blockchain!', username: 'h4ck3r'})"const buffer = Buffer.from(post); ipfs.files.add(buffer, { pin: false }, (err, ipfsHash) => { console.log(ipfsHash[0].path) // => QmV3C3HFE8824KWYTMq5fbZyF93GTMz5W7h3uBG1oVZCv8}); Now we have a hash small enough to send in the memo field. Although looks like there might be another issue. IPFS represents the hash of files and objects using a with Base58 encoding. The prefix corresponds to the algorithm (SHA-256) and length (32 bytes) used by IPFS. Multihash multiformat Qm So it looks like we are not going to be able to add this in our transaction’s Text field which only allows strings of up to 28 bytes nor are we able to use the Hash field which only allows 32-byte hash. So we’ll have to write a function that converts this IPFS hash back to 32 byte hash in hex format: import bs58 from 'bs58' this.getBytes32FromIpfsHash = (ipfsListing) => { // Decode the base58 string and then slice the first two bytes // which represent the function code and it's length, in this case: // function:0x12=sha2, size:0x20=256 bits return bs58.decode(ipfsListing).slice(2).toString('hex')} Add it on the Blockchain Now that we have the right hash to store in the memo field, we’ll have to figure out how to actually send this transaction. One option is to prompt the user to make use of which is a Chrome extension wallet for Stellar (kind of like MetaMask for Stellar Lumens). Once they have MetaPay installed, we can just setup a URL like this: MetaPay <a ref='savePost' data-meta-pay href="https://stellar.meta.re/transaction?to=[address]&amount=1&memo=[txMemo]" target="_blank" >Save Post</a> Now if we put it all together, the submit post logic would look something like this: import StellarSdk from 'stellar-sdk' // Add the post data to IPFSthis.submitPost = (post) => { const buffer = Buffer.from(post); ipfs.files.add(buffer, (err, ipfsHash) => { this.txMemo = this.getBytes32FromIpfsHash(ipfsHash[0].path) this.refs['savePost'].click() // This will open the MetaPay popup this.confirmPayment(this.txMemo) // Listen to see if the transaction went through });} // Check to see if the transaction went throughthis.confirmPayment = (ipfsHash) => { const server = new StellarSdk.Server('https://horizon-testnet.stellar.org'); server.transactions().forAccount('OUR_ACCOUNT_ID').cursor('now').stream({ onmessage: (transaction) => { if(transaction.memo == ipfsHash) { // Yes, it made it on the blockchain! transaction.operations().then((ops) => { var payment = ops._embedded.records[0]; if(parseInt(parseFloat(payment.amount)) < 1) { console.error('Payment insufficient. Post not saved!'); } else { this.pinIpfsListing(ipfsHash); } }).catch((error) => { error.target.close(); // Close stream console.error('Payment Error: ', error); alert('Error confirming payment. Try again later'); }); } }, onerror: (error) => { error.target.close(); // Close stream console.error('Streaming Error: ', error); } });} That will open the MetaPay popup with all the prefilled fields, we will wait and see if the user goes through with that transaction, if they do, we move to the next step. Persist it on IPFS // If successful, pin our post on the IPFS nodethis.pinIpfsListing = (ipfsHash) => { ipfs.pin.add(ipfsHash)} Notice when we added our data to IPFS, we didn’t pin it. Without pinning the post, our data will not be stored permanently on the IPFS node and will eventually be garbage collected. So in a way that small transaction fee helps us pay for pinning the data / the cost of running an IPFS node and make sure the data is available for all users. Read from the Blockchain & find it on IPFS Now when other users visit the app, we will pull all the transactions posted to this app’s account, grab the memo field, encode it back to Base58 and pull the data from IPFS: import StellarSdk from 'stellar-sdk'import ipfsAPI from 'ipfs-api' this.getIpfsHashFromBytes32 = (bytes32Hex) => { // Add our default ipfs values for first 2 bytes: // function:0x12=sha2, size:0x20=256 bits const hashHex = "1220" + bytes32Hex const hashBytes = Buffer.from(hashHex, 'hex'); const hashStr = bs58.encode(hashBytes) return hashStr} const server = new StellarSdk.Server('https://horizon-testnet.stellar.org');const ipfs = ipfsAPI({ host: 'ipfs.infura.io', port: 5001, protocol: 'https' });let posts = []; server.transactions() .forAccount('OUR_ACCOUNT_ID') .order('desc') .call() .then((page) => { page.records.forEach(record => { if (record.memo) { const ipfsListing = this.getIpfsHashFromBytes32(record.memo) ipfs.files.get(ipfsListing, function (err, files) { files.forEach((file) => { const post = file.content.toString('utf8') posts.push(post) // Show this to the user }) }) } });}); Decentralization This architecture makes sure our data is decentralized but what about the app itself? If the app goes down, users could write another client that can read from that account’s blockchain and pull the corresponding data from IPFS. Although we could go one step further and actually store the client code on the blockchain as well by utilizing the account operation. manageData Something like this could be part of the build / deploy chain for the app, so everytime a new version is released, it’s also added to the blockchain: import fs from 'fs' this.publishClient = () { const code = fs.readFileSync('my_project/client.js'); ipfs.files.add(buffer, (err, ipfsHash) => { const server = new StellarSdk.Server('https://horizon-testnet.stellar.org'); server.loadAccount('OUR_ACCOUNT_ID').then((base) => { const tx = new StellarSdk.TransactionBuilder(base); const data = {name: 'v1.0.0', value: ipfsHash[0].path}; tx.addOperation(StellarSdk.Operation.manageData(data)); var builtTx = tx.build(); builtTx.sign(StellarSdk.Keypair.fromSecret('OUR_ACCOUNT_SECRET')); return server.submitTransaction(builtTx); }); });} Although something to keep in mind, each DataEntry increases the minimum balance needed to be held by the account. So we might want to only maintain the last version or the last couple of versions of the client codebase on the account. But that should suffice to make our demo app more or less decentralized. Conclusion This was an interesting thought experiment but this demo app still does not have a way to manage comments, upvotes, etc since we are somewhat limited by what the Stellar platform is capable of. To build something more advanced we’d need to build it on a true dApp platform like Ethereum or NEO that have all the necessary tooling to make that happen. But with the recent controversy of Facebook data and user privacy, it’s definitely time to think about how to build social apps that are decentralized. There’s a lot of interesting work done in this space with projects like , , and others which will be interesting to follow in the coming years. Datawallet Blockstack Akasha
