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btsdex

Package for work with BitShares DEX. The main class in the package is BitShares. All you need is in it. There are a couple more helper classes, but they are not really designed for use outside of the BitShares class.

The BitShares class consists of static methods intended for working with the BitShares public blockchain API. Using the BitShares class, you can create an object whose methods provide access to the private part of the BitShares blockchain API.

Setup

If you use npm

This library can be obtained through npm:

$ npm install btsdex

If you want use REPL-mode:

$ npm install -g btsdex

If you use browser

Include this in html-file:

<script src="btsdex.min.js"></script>

After that in console available BitShares class.

Usage

btsdex package contain class BitShares:

const BitShares = require('btsdex')

To connect to the BitShares network, you must call connect method:

await BitShares.connect();

By default, BitShares connected to wss://dex.iobanker.com/ws. If you want set another node to connect:

await BitShares.connect("wss://dex.iobanker.com/ws")

You can also connect to the network using the event system.

Public API

After the connection, you can use any public method from official documentation (if the method is still relevant!).

Database API

To access the Database API, you can use the BitShares.db object.

An example of methods from the Database API:

get_objects(const vector <object_id_type> & ids) const

list_assets(const string & lower_bound_symbol, uint32_t limit) const

To use them:

let obj = await BitShares.db.get_objects(["1.3.0"])
let bts = await BitShares.db.list_assets("BTS", 100)

History API

To access the Account History API, you can use the BitShares.history object.

Example of a method from the Account History API:

get_account_history (account_id_type account, operation_history_id_type stop = operation_history_id_type (), unsigned limit = 100, operation_history_id_type start = operation_history_id_type ()) const

To use it:

let ops = await BitShares.history.get_account_history("1.2.849826", "1.11.0", 10, "1.11.0")

Private API

If you want to have access to account operations, you need to create a BitShares object.

If you know privateActiveKey:

let acc = new BitShares(<accountName>, <privateActiveKey>)

or if you know password:

let acc = BitShares.login(<accountName>, <password>)

or if you have bin-file:

let buffer = fs.readFileSync(<bin-file path>);
let acc = BitShares.loginFromFile(buffer, <wallet-password>, <accountName>)

While this object can not much: buy, sell, transfer, cancel order, asset reserve, asset issue and more.

Signatures of methods:

acc.buy(buySymbol, baseSymbol, amount, price, fill_or_kill = false, expire = "2020-02-02T02: 02: 02")
acc.sell(sellSymbol, baseSymbol, amount, price, fill_or_kill = false, expire = "2020-02-02T02: 02: 02")
acc.cancelOrder(id)
acc.transfer(toName, assetSymbol, amount, memo)
acc.assetIssue(toName, assetSymbol, amount, memo)
acc.assetReserve(assetSymbol, amount)

Examples of using:

await acc.buy("HONEST.BTC", "BTS", 0.002, 140000)
await acc.sell("BTS", "HONEST.USD", 187, 0.24)
await acc.transfer("scientistnik", "BTS", 10)
await acc.assetIssue("scientistnik", "ABC", 10)
await acc.assetReserve("ABC", 12)

If you want to send tokens with memo and get acc from constructor (use new BitShares()), then before that you need to set a private memo-key:

bot.setMemoKey(<privateMemoKey>)
await bot.transfer("scientistnik", "HONEST.USD", 10, "Thank you for BTSDEX!")

Transaction Builder

Each private transaction is considered accepted after being included in the block. Blocks are created every 3 seconds. If we need to perform several operations, their sequential execution can take considerable time. Fortunately, several operations can be included in a single transaction. For this you need to use transaction builder.

For create new transaction:

let tx = BitShares.newTx([<activePrivateKey>,...])

or if you have account object acc:

let tx = acc.newTx()

For get operation objects:

let operation1 = await acc.transferOperation("scientistnik", "BTS", 10)
let operation2 = await acc.assetIssueOperation("scientistnik", "ABC", 10)
...

Added operation to transaction:

tx.add(operation1)
tx.add(operation2)
...

If you want to know the cost of the transaction:

let cost = await tx.cost()
console.log(cost) // { BTS: 1.234 }

After broadcast transaction:

await tx.broadcast()

or

await acc.broadcast(tx)

If you know what fields the transaction you need consists of and the operation name, you can use the transaction builder for executing the transaction.

The account property has a lot more operations available than an instance of the bitshares class.

An example of using transaction builder for executing 'account_create' operation:

let BitShares = require("btsdex")

BitShares.subscribe("connected", start)

async function start() {
  let acc = await BitShares.login(<accountName>, <password>)

  let params = {
    fee: {amount: 0, asset_id: "1.3.0"},
    name: "trade-bot3",
    registrar: "1.2.21058",
    referrer: "1.2.21058",
    referrer_percent: 5000,
    owner: {
      weight_threshold: 1,
      account_auths: [],
      key_auths: [[<ownerPublicKey>, 1]],
      address_auths: []
    },
    active: {
      weight_threshold: 1,
      account_auths: [],
      key_auths: [[<activePublicKey>, 1]],
      address_auths: []
    },
    options: {
      memo_key: <memoPublicKey>,
      voting_account: "1.2.5",
      num_witness: 0,
      num_committee: 0,
      votes: []
    },
    extensions: []
  };

  let tx = acc.newTx()
  tx.account_create(params) // 'account_create' is the operation name
  await tx.broadcast()
}

Event system

Very often we have to expect, when there will be some action in the blockchain, to which our software should respond. The idea of ​​reading each block and viewing all the operations in it, seemed to me ineffective. Therefore, this update adds an event system.

Event types

At the moment, BTSDEX has three types of events:

  • connected - works once after connecting to the blockchain;
  • block - it works when a new block is created in the blockchain;
  • account - occurs when the specified account is changed (balance change).

For example:

const BitShares = require("btsdex");

BitShares.subscribe('connected', startAfterConnected);
BitShares.subscribe('block', callEachBlock);
BitShares.subscribe('account', changeAccount, 'trade-bot');

async function startAfterConnected() {/* is called once after connecting to the blockchain */}
async function callEachBlock(obj) {/* is called with each block created */}
async function changeAccount(array) {/* is called when you change the 'trade-bot' account */}
The connected event

This event is triggered once, after connecting to the blockchain. Any number of functions can be subscribed to this event and all of them will be called after connection.

BitShares.subscribe('connected', firstFunction);
BitShares.subscribe('connected', secondFunction);

Another feature of the event is that when you first subscription call the method BitShares.connect(), i.e. will be an automatic connection. If by this time the connection to the blockchain has already been connected, then it will simply call the function.

Now it's not necessary to explicitly call BitShares.connect(), it's enough to subscribe to the connected event.

const BitShares = require("btsdex");

BitShares.subscribe('connected', start);

async function start() {
  // something is happening here
}
The block event

The block event is triggered when a new block is created in the blockchain. The first event subscription automatically creates a subscription to the connected event, and if this is the first subscription, it will cause a connection to the blockchain.

const BitShares = require("btsdex");

BitShares.subscribe('block', newBlock);

// need to wait ~ 10-15 seconds
async function newBlock(obj) {
  console.log(obj); // [{id: '2.1.0', head_block_number: 17171083, time: ...}]
}

As you can see from the example, an object with block fields is passed to all the signed functions.

The account event

The account event is triggered when certain changes occur (balance changes). These include:

  • If the account sent someone one of their assets
  • If an asset has been sent to an account
  • If the account has created an order
  • If the account order was executed (partially or completely), or was canceled.

The first subscriber to account will call a block subscription, which in the end will cause a connection to the blockchain.

Example code:

const BitShares = require("btsdex");

BitShares.subscribe('account', changeAccount, 'scientistnik');

async function changeAccount (array) {
  console.log(array); // [{id: '1.11.37843675', block_num: 17171423, op: ...}, {...}]
}

In all the signed functions, an array of account history objects is transferred, which occurred since the last event.

REPL-mode

If you install btsdex-package in global storage, you may start btsdex exec script:

$ btsdex
>|

This command try autoconnect to mainnet BitShares. If you want to connect on testnet, try this:

$ btsdex --testnet
>|

or use --node key:

$ btsdex --node wss://dex.iobanker.com/ws
>|

It is nodejs REPL with several variables:

  • BitShares, main class BitShares package
  • login, function to create object of class BitShares
  • generateKeys, to generateKeys from login and password
  • accounts, is analog BitShares.accounts
  • assets, is analog BitShares.assets
  • db, is analog BitShares.db
  • history, is analog BitShares.hostory
  • network, is analog BitShares.network
  • fees, is analog BitShares.fees

For example

$ btsdex
> assets["bts"].then(console.log)

Shot request

If need call only one request, you may use --account, --asset, --block, --object, --history or --transfer keys in command-line:

$ btsdex --account <'name' or 'id' or 'last number in id'>
{
  "id": "1.2.5992",
  "membership_expiration_date": "1970-01-01T00:00:00",
  "registrar": "1.2.37",
  "referrer": "1.2.21",
  ...
}
$ btsdex --asset <'symbol' or 'id' or 'last number in id'>
{
  "id": "1.3.0",
  "symbol": "BTS",
  "precision": 5,
  ...
}
$ btsdex --block [<number>]
block_num: 4636380
{
  "previous": "0046bedba1317d146dd6afbccff94412d76bf094",
  "timestamp": "2018-10-01T13:09:40",
  "witness": "1.6.41",
  ...
}
$ btsdex --object 1.2.3
{
  "id": "1.2.3",
  "membership_expiration_date": "1969-12-31T23:59:59",
  "registrar": "1.2.3",
  "referrer": "1.2.3",
  ...
}
$ btsdex --history <account> [<limit>] [<start>] [<stop>]
[
  {
    "id": "1.11.98179",
    "op": [
      0,
  ...
}]
$ btsdex --transfer <from> <to> <amount> <asset> [--key]
Transfered <amount> <asset> from '<from>' to '<to>' with memo '<memo>'

Helper classes

There are a couple more helper classes, such as BitShares.assets and BitShares.accounts:

let usd = await BitShares.assets.usd;
let btc = await BitShares.assets["HONEST.BTC"];
let bts = await BitShares.assets["bts"];

let iam = await BitShares.accounts.scientistnik;
let tradebot = await BitShares.accounts["trade-bot"];

The returned objects contain all the fields that blockchain returns when the given asset or account name is requested.

Some examples

The below example can be used to broadcast any transaction to the BitShares Blockchain using API node hence you can use any BitShares Public API node, you will just need to replace parameters under params and the operation name asset_update in below example with your desired transaction parameters and its operation name. Use the below links to determine your desired operation name and needed parameters along with their required order. Below transaction example serialization can be found here Serialization as you will need to honor the order of Operation parameters along with their sub parameters which are present in below example new_options note that some of parameters or sub parameters are optional:

const BitShares = require("btsdex");
BitShares.connect("wss://dex.iobanker.com/ws"); # replace wss://dex.iobanker.com/ws with API node if you want to use another BitShares API node
BitShares.subscribe('connected', startAfterConnected);

async function startAfterConnected() {
let acc = await new BitShares("username", "password"); # replace with your username and password

# Below are required parameters and structure for the example of operation *asset_update*; every different operation would required different parameters and structure

# Finding what data to use in these parameters would require understanding of how BitShares Blockchain works, for example *issuer* is referred to the ID *1.2.1787259* of owner account of an Asset, use telegram [BitShares Development](https://t.me/BitSharesDEV) group to ask about required parameters.

let params = {
    fee: {amount: 0, asset_id: "1.3.0"},
    "issuer":"1.2.1787259",
    "asset_to_update":"1.3.5537", 
    "new_options": {
     "max_supply": "1000000000000000", 
     "market_fee_percent": 0, 
     "max_market_fee": "0", 
     "min_market_fee": 0, 
     "issuer_permissions": 79, 
     "flags": 6, 
     "core_exchange_rate": {
      "base": {"amount": 500000, "asset_id": "1.3.0"}, 
      "quote": {"amount": 10000, "asset_id": "1.3.5537"}
      }, 
    "whitelist_authorities": [], 
    "blacklist_authorities": [], 
    "whitelist_markets": [], 
    "blacklist_markets": [],
    "description": "{\"main\":\"Your Asset Info\",\"market\":\"Your Market info\"}", 
    "extensions": {"taker_fee_percent": 10}
    }
}

let tx = acc.newTx();
tx.asset_update(params); # Replace asset_update with your desired operation name
await tx.broadcast();
console.log(tx);
}

Another example for getting account orders information:

const BitShares = require('btsdex')
KEY = 'privateActiveKey'

BitShares.subscribe('connected', startAfterConnected)

async function startAfterConnected() {
  let bot = new BitShares('trade-bot', KEY)

  let iam = await BitShares.accounts['trade-bot'];
  let orders = await BitShares.db.get_full_accounts([iam.id], false);
  
  orders = orders[0][1].limit_orders;
  let order = orders[0].sell_price;
  console.log(order)
}

Documentation

For more information, look wiki or in docs-folder.

Contributing

Bug reports and pull requests are welcome on GitHub. For communication, you can use the Telegram-channel btdex.

master-branch use for new release. For new feature use dev branch. All pull requests are accepted in dev branch.

License

The package is available as open source under the terms of the MIT License.