Coinbase Pro Gem
Note: This gem is now being maintained by Vertbase (https://www.vertbase.com).
REST Client
We provide an pro client that is a thin wrapper over the pro API. The purpose of this Readme is to provide context for using the gem effectively. For a detailed overview of the information that's available through the API, we recommend consulting the official documentation.
We provide a synchronous and asynchronous client. The only functional difference between the two clients is that the asynchronous client must be started inside the Eventmachine reactor loop.
Synchronous Client
require 'coinbasepro/api'
rest_api = Coinbasepro::Api::Client.new(api_key, api_secret, api_pass)
while true
sleep 10
rest_api.last_trade(product_id: "BTC-GBP") do |resp|
p "Spot Rate: £ %.2f" % resp.price
end
end
Asynchronous Client
require 'coinbasepro/api'
require 'eventmachine'
rest_api = Coinbasepro::Api::AsyncClient.new(api_key, api_secret, api_pass)
EM.run {
EM.add_periodic_timer(10) {
rest_api.last_trade(product_id: "BTC-GBP") do |resp|
p "Spot Rate: £ %.2f" % resp.price
end
}
}
Usage
Installation
$ gem install coinbasepro-api
Initialization
To initialize the client, simply pass in an API Key, API Secret, and API Passphrase which you generate on the web interface:
rest_api = Coinbasepro::Api::Client.new(api_key, api_secret, api_pass)
rest_api = Coinbasepro::Api::AsyncClient.new(api_key, api_secret, api_pass)
Default Product
Coinbase Pro supports trading bitcoin in several currencies. If you wish to trade a different currency, you can specify an alternative default currency.
gbp_client = Coinbasepro::Api::Client.new(api_key, api_secret, api_pass,
product_id: "BTC-GBP")
Sandbox
You can initialize a connection to the sandbox by specifying an alternative api endpoint.
sandbox = Coinbasepro::Api::Client.new(api_key, api_secret, api_pass,
api_url: "https://public.sandbox.pro.coinbase.com")
Methods
The default representation of return data is an unmodified hash from the JSON blob returned in the body of the API response. The response should be accessed in a block like this.
rest_api.last_trade do |resp|
p "Spot Rate: $ %.2f" % BigDecimal(resp['price'])
end
Note, the synchronous client will also return the same data. However, this is discouraged since it will make porting code to an asynchronous client more difficult. Here is an example of what that might look like.
resp = rest_api.last_trade
p "Spot Rate: $ %.2f" % BigDecimal(resp['price'])
Parameters
The gem will automatically encode any additional parameters you pass to method calls. For instance to get the full orderbook, you must explicitly set the level parameter to 3.
rest_api.orderbook(level: 3) do |resp|
p "There are #{resp['bids'].count} open bids on the orderbook"
p "There are #{resp['asks'].count} open asks on the orderbook"
end
Return Values
Data format is a sensitive issue when writing financial software. The pro API represents monetary data in string format. This is a good intermediary data format for the user to apply their own data format, but is not especially useful on its own.
For representing monetary data in ruby, we recommend using the BigDecimal library. If you access data by calling response items as though they were methods on the response itself. If you access data this way, any numerical data will be converted to BigDecimal format.
rest_api.orders(before: Time.now - 60*60) do |resp|
resp.each do |order|
p sprintf "#{order.side} ฿ %.8f for $ %.2f", order.size, order.price
end
end
Errors
The gem will throw an error if it detects an exception. The possible errors are:
Error | Description |
---|---|
APIError | Parent class for all errors. |
BadRequestError | Server returned status 400. |
NotAuthorizedError | Server returned status 401. |
ForbiddenError | Server returned status 403. |
NotFoundError | Server returned status 404. |
RateLimitError | Server returned status 429. |
InternalServerError | Server returned status 500. |
Metadata
You may need more fine-grained access to API response than just the body. We additionally provide access to the response headers, status, and the raw response as represented by the underlying library.
rest_api.last_trade do |resp|
p "Status: #{resp.response_status}"
p "Headers: #{resp.response_headers}"
p "Response: #{resp.raw}"
end
Endpoints
Market Data
Coinbase supports trading in multiple currencies. When interacting with market data, you can get information about a product other than your default by setting the product_id parameter.
rest_api.last_trade(product_id: 'BTC-GBP') do |resp|
p "The spot rate is £ %.2f" % resp.price
end
currencies
Fetches a list of currencies we support.
rest_api.currencies do |resp|
resp.each do |currency|
p "The symbol for #{currency.name} is #{currency.id}"
end
end
products
Fetches a list of products we offer.
rest_api.products do |resp|
resp.each do |product|
p "The most #{product.base_currency} you can buy with #{product.quote_currency} is %f" % product.base_max_size
end
end
orderbook
Downloads a list of all open orders on our pro.
rest_api.orderbook do |resp|
p resp
end
If you wish to download a level 2 or level 3 orderbook, pass a level parameter to the method.
rest_api.orderbook(level: 3) do |resp|
p "There are #{resp.bids.count} open bids on the orderbook"
p "There are #{resp.asks.count} open asks on the orderbook"
end
last_trade
Downloads information about the last trade, which is exposed through the /ticker endpoint.
rest_api.last_trade do |resp|
p "The spot rate is $ %.2f" % resp.price
end
trade_history
Downloads recent trades. Please be aware that if you don't explicitly pass a before parameter this will recursively download every trade that's ever been placed.
rest_api.trade_history(before: Time.now - 10*60) do |resp|
p "#{resp.count} trades have occurred in the past 10 minutes."
end
price_history
Downloads price history. We recommend setting a start parameter. You may also find the granularity parameter useful.
rest_api.price_history(start: Time.now - 60*60, granularity: 60) do |resp|
p "In the past hour, the maximum price movement was $ %.2f" % resp.map { |candle| candle.high - candle.low }.max
end
daily_stats
Downloads price information over the past 24 hours.
rest_api.daily_stats do |resp|
p "The highest price in in the past 24 hours was %.2f" % resp.high
p "The lowest price in in the past 24 hours was %.2f" % resp.low
end
Accounts
accounts
Downloads information about your accounts.
rest_api.accounts do |resp|
resp.each do |account|
p "#{account.id}: %.2f #{account.currency} available for trading" % account.available
end
end
account
Downloads information about a single account. You must pass the account id as the first parameter.
rest_api.account(account_id) do |account|
p "Account balance is %.2f #{account.currency}" % account.balance
end
account_history
Downloads a ledger of transfers, matches, and fees associated with an account. You must pass the account id as the first parameter.
rest_api.account_history(account_id) do |resp|
p resp
end
account_holds
Holds are placed on an account for open orders. This will download a list of all account holds.
rest_api.account_holds(account_id) do |resp|
p resp
end
Orders
bid
Places a buy order. Required parameters are amount and price.
rest_api.bid(0.25, 250) do |resp|
p "Order ID is #{resp.id}"
end
buy
This is an alias for bid.
rest_api.buy(0.25, 250) do |resp|
p "Order ID is #{resp.id}"
end
ask
Places a sell order. Required parameters are amount and price.
rest_api.ask(0.25, 250) do |resp|
p "Order ID is #{resp.id}"
end
sell
This is an alias for ask.
rest_api.sell(0.25, 250) do |resp|
p "Order ID is #{resp.id}"
end
cancel
Cancels an order. This returns no body, but you can still pass a block to execute on a successful return.
rest_api.cancel(order_id) do
p "Order canceled successfully"
end
orders
Downloads a list of all your orders. Most likely, you'll only care about your open orders when using this.
rest_api.orders(status: "open") do |resp|
p "You have #{resp.count} open orders."
end
order
Downloads information about a single order.
rest_api.order(order_id) do |resp|
p "Order status is #{resp.status}"
end
fills
Downloads a list of fills.
rest_api.fills do |resp|
p resp
end
Transfers
deposit
Deposit money from a Coinbase wallet.
rest_api.deposit(wallet_id, 10) do |resp|
p "Deposited 10 BTC"
end
withdraw
Withdraw money for your Coinbase wallet.
rest_api.withdraw(wallet_id, 10) do |resp|
p "Withdrew 10 BTC"
end
crypto_withdrawal Withdraw money to a crypto address
rest_api.crypto_withdrawal(10, 'BTC', 'a365117a-8e67-4de2-9655-21ec5cf2211e') do |resp|
p "Withdrew 10 BTC to BTC wallet with address a365117a-8e67-4de2-9655-21ec5cf2211e"
end
Other
server_time
Download the server time.
rest_api.server_time do |resp|
p "The time on the server is #{resp}"
end
Websocket Client
We recommend reading the official websocket documentation before proceeding.
We provide a websocket interface in the gem for convenience. This is typically used to build a real-time orderbook, although it can also be used for simpler purposes such as tracking the market rate, or tracking when your orders fill. Like the asynchronous client, this depends Eventmachine for asynchronous processing.
Please consider setting the keepalive flag to true when initializing the websocket. This will cause the websocket to proactively refresh the connection whenever it closes.
websocket = Coinbasepro::Api::Websocket.new(keepalive: true)
Before starting the websocket, you should hook into whatever messages you're interested in by passing a block to the corresponding method. The methods you can use for access are open, match, change, done, and error. Additionally, you can use message to run a block on every websocket event.
require 'coinbasepro/api'
require 'eventmachine'
websocket = Coinbasepro::Api::Websocket.new(product_id: 'BTC-GBP',
keepalive: true)
websocket.match do |resp|
p "Spot Rate: £ %.2f" % resp.price
end
EM.run do
websocket.start!
EM.add_periodic_timer(1) {
websocket.ping do
p "Websocket is alive"
end
}
EM.error_handler { |e|
p "Websocket Error: #{e.}"
}
end
If started outside the reactor loop, the websocket client will use a very basic Eventmachine handler.
require 'coinbasepro/api'
websocket = Coinbasepro::Api::Websocket.new(product_id: 'BTC-GBP')
websocket.match do |resp|
p "Spot Rate: £ %.2f" % resp.price
end
websocket.start!