- Connect to mainnet, testnet, or a custom address
- HTTP API
- Wallet
- WebSockets
- Broadcast Transactions
- Node RPC
- iOS 11+ / macOS 10.10+ / tvOS 11+ / watchOS 2+
- Swift 5
- Xcode 10.2
To add BinanceChain to your project, add a dependency:
dependencies: [
.package(url: "https://github.com/mh7821/SwiftBinanceChain.git", from: "0.0.0")
]To integrate BinanceChain into your Xcode project using CocoaPods, specify it in your Podfile:
pod 'BinanceChain', :git => 'https://github.com/mh7821/SwiftBinanceChain.git'Asynchronous API calls can be made using BinanceChain. The response objects are strongly typed, see Model for available properties.
import BinanceChain
let binance = BinanceChain()
// Get the latest block time and current time
binance.time() { (response) in
if let error = response.error { return print(error) }
print(response.time)
}
// Get node information
binance.nodeInfo() { (response) in
print(response.nodeInfo)
}
// Get the list of validators used in consensus
binance.validators() { (response) in
print(response.validators)
}
// Get the list of network peers
binance.peers() { (response) in
print(response.peers)
}
// Get account metadata for an address
binance.account(address: "tbnb10a6kkxlf823w9lwr6l9hzw4uyphcw7qzrud5rr") { (response) in
print(response.address)
}
// Get an account sequence
binance.sequence(address: "tbnb10a6kkxlf823w9lwr6l9hzw4uyphcw7qzrud5rr") { (response) in
print(response.sequence)
}
// Get a transaction
binance.tx(hash: "5CAA5E0C6266B3BB6D66C00282DFA0A6A2F9F5A705E6D9049F619B63E1BE43FF") { (response) in
print(response.tx)
}
// Get token list
binance.tokens(limit: .fiveHundred, offset: 0) { (response) in
print(response.tokens)
}
// Get market pairs
binance.markets(limit: .oneHundred, offset: 0) { (response) in
print(response.markets)
}
// Obtain trading fees information
binance.fees() { (response) in
print(response.fees)
}
// Get the order book
binance.marketDepth(symbol: "BNB_BTC.B-918") { (response) in
print(response.marketDepth)
}
// Get candlestick/kline bars for a symbol
binance.klines(symbol: "BNB_BTC.B-918", interval: .fiveMinutes) { (response) in
print(response.candlesticks)
}
// Get closed (filled and cancelled) orders for an address
binance.closedOrders(address: "tbnb10a6kkxlf823w9lwr6l9hzw4uyphcw7qzrud5rr") { (response) in
print(response.orderList)
}
// Get open orders for an address
binance.openOrders(address: "tbnb10a6kkxlf823w9lwr6l9hzw4uyphcw7qzrud5rr") { (response) in
print(response.orderList)
}
// Get an order
binance.order(id: hashId) { (response) in
print(response.order)
}
// Get 24 hour price change statistics for a market pair symbol
binance.ticker(symbol: "BNB_BTC.B-918") { (response) in
print(response.ticker)
}
// Get a list of historical trades
binance.trades() { (response) in
print(response.trades)
}
// Get transactions for an address
binance.transactions(address: "tbnb10a6kkxlf823w9lwr6l9hzw4uyphcw7qzrud5rr") { (response) in
print(response.transactions)
}To get real-time updates, create a WebSocket, register a WebSocketDelegate, connect and subscribe. The delegate will be notified as updates become available.
import BinanceChain
let webSocket = WebSocket()
webSocket.delegate = self
webSocket.connect(endpoint: .testnet) {
// Individual order updates
webSocket.subscribe(accounts: "tbnb10a6kkxlf823w9lwr6l9hzw4uyphcw7qzrud5rr")
// Account updates
webSocket.subscribe(orders: "tbnb10a6kkxlf823w9lwr6l9hzw4uyphcw7qzrud5rr")
// Transfer updates when the address is sender or receiver
webSocket.subscribe(transfer: "tbnb10a6kkxlf823w9lwr6l9hzw4uyphcw7qzrud5rr")
// Individual trade updates
webSocket.subscribe(trades: ["BNB_BTC.B-918"])
// Order book price and quantity depth updates
webSocket.subscribe(marketDiff: ["BNB_BTC.B-918"])
// Top 20 levels of bids and asks
webSocket.subscribe(marketDepth: ["BNB_BTC.B-918"])
// The current candlestick at requested interval
webSocket.subscribe(candlestick: ["BNB_BTC.B-918"], interval: .oneMinute)
// Ticker statistics for a symbol, sent every second
webSocket.subscribe(ticker: ["BNB_BTC.B-918"])
// Ticker statistics for all symbols, sent every second
webSocket.subscribe(ticker: .all)
// Reduced ticker statistics for a symbol, sent every second
webSocket.subscribe(miniTicker: ["BNB_BTC.B-918"])
// Reduced ticker statistics all symbols, sent every second
webSocket.subscribe(miniTicker: .all)
// Latest block height
webSocket.subscribe(blockheight: .all)
// Keep a reference in order to unsubscribe
let subscription = webSocket.subscribe(ticker: all)
webSocket.unsubscribe(subscription)
}Initialise using a mnemonic phrase, or generate a random new one.
import BinanceChain
// Generate a random wallet
let wallet = Wallet()
// Restore with a mnemonic phrase
let wallet = Wallet(mnemonic: "mnemonic word list")
// Access keys
print(wallet.privateKey)
print(wallet.publicKey)
print(wallet.mnemonic)
print(wallet.account)
print(wallet.address)
// Synchronise with the remote node before using the wallet
wallet.synchronise() { (error) in
if let error = error { return print(error) }
// Generate a new order ID
let id = wallet.nextAvailableOrderId()
// Sign a message
let data = wallet.sign(message: data)
// Access details
print(wallet.accountNumber)
print(wallet.sequence)
}Sign and broadcast a transaction.
import BinanceChain
let binance = BinanceChain()
let wallet = Wallet()
// Create a new order to buy or sell tokens
let msg = Message.newOrder(symbol: "BNB_BTC.B-918", orderType: .limit, side: .buy, price: 100,
quantity: 1, timeInForce: .goodTillExpire, wallet: wallet)
// Cancel an outstanding (unfilled) order
let msg = Message.cancelOrder(symbol: "BNB_BTC.B-918", orderId: "id", wallet: wallet)
// Transfer funds
let msg = Message.transfer(symbol: "BNB_BTC.B-918", amount: 200, to: address, wallet: Wallet)
// Move tokens into a frozen state, meaning they can't be used to transfer or send new orders
let msg = Message.freeze(symbol: "BNB_BTC.B-918", amount: 10, wallet: wallet)
// Revert frozen tokens back to a free state
let msg = Message.unfreeze(symbol: "BNB_BTC.B-18", amount: 10, wallet: wallet)
// Vote for proposals
let msg = Message.vote(proposalId: 1, vote: .yes, wallet: wallet)
// Broadcast the message
binance.broadcast(message: msg, sync: true) { (response) in
if let error = response.error { return print(error) }
print(response.broadcast)
}Interact with a node directly, implemented using JSONRPC/HTTP.
import BinanceChain
// Connect to a specific node
let url = URL("http://localhost:27146")
let noderpc = NodeRPC(url)
// Or, connect to a Binance Chain seed node
let noderpc = NodeRPC()
noderpc.connect(endpoint: .testnet) { (error) in
// Check that a suitable peer was found
if let error = error { return print(error) }
// Get information about the application
noderpc.abciInfo() { (response) in
if let error = error { return print(error }
print(response.result)
}
// Get a concise summary of the consensus state
noderpc.consensusState() { (response) in
print(response.result)
}
// Get complete consensus state
noderpc.dumpConsensusState() { (response) in
print(response.result)
}
// Gets network information
noderpc.genesis() { (response) in
print(response.result)
}
// Gets the genesis file
noderpc.health() { (response) in
print(response.result)
}
// Get node health
noderpc.netInfo() { (response) in
print(response.result)
}
// Gets number of unconfirmed transactions
noderpc.numberUnconfirmedTxs(limit: 30) { (response) in
print(response.result)
}
// Get Tendermint status
noderpc.status() { (response) in
print(response.result)
}
// Query the application
noderpc.abciQuery(path: .tokensInfo, data: "", prove: true) { (response) in
print(response.result)
}
// Get the block at a given height (pass nil for the latest block)
noderpc.block(height: 10905636) { (response) in
print(response.result)
}
// Get results for a given height (pass nil for the latest block)
noderpc.blockResult(height: 10905636) { (response) in
print(response.result)
}
// Get block headers between minHeight and maxHeight
noderpc.blockchain(minHeight: 0, maxHeight: 0) { (response) in
print(response.result)
}
// Broadcast a transaction asynchronously
noderpc.broadcastAsync(message: message) { (response) in
print(response.result)
}
// Broadcast a transaction and wait for check and delivery
noderpc.broadcastCommit(message: message) { (response) in
print(response.result)
}
// Broadcast a transaction and wait for check
noderpc.broadcastSync(message: message) { (response) in
print(response.result)
}
// Get the commit at a given height (pass nil for the latest block)
noderpc.commit(height: 10905636) { (response) in
print(response.result)
}
// Query transaction results
noderpc.tx(hash: "AB1B84C7C0B0B195941DCE9CFE1A54214B72D5DB54AD388D8B146A6B62911E8E", prove: true) {
(response) in print(response.result)
}
// Query for transaction results
noderpc.txSearch(query: "tx.height=10905636", prove: true, page: 1, perPage: 30) { (response) in
print(response.result)
}
// Get validators for a block (pass nil for the latest block)
noderpc.validators(height: 10905636) { (response) in
print(response.result)
}
}Switch between mainnet, testnet, or a custom endpoint easily:
let binance = BinanceChain(endpoint: .mainnet)
let websocket = WebSocket(endpoint: .testnet)
let wallet = Wallet(endpoint: "https://dex.binance.org/api/v1")Sample apps are provided for iOS and macOS. They all use Test.swift which demonstrates features of the library.
The command line app uses Swift Package Manager:
% swift run binancechain [test]
Available tests:
all: Run everything
api: HTTP API
websocket: Websockets
broadcast: Broadcast Transactions
wallet: Wallet
noderpc: NodeRPCThe iOS and macOS apps use Cocoapods and Xcode:
% pod install
% open BinanceChain.xcworkspaceSwiftBinanceChain is released under the MIT license. See LICENSE for details.