NAME App::cryp::arbit - Cryptocurrency arbitrage utility VERSION This document describes version 0.002 of App::cryp::arbit (from Perl distribution App-cryp-arbit), released on 2018-08-01. SYNOPSIS Please see included script cryp-arbit. DESCRIPTION Glossary * inventory * order pair * gross profit margin Price difference percentage of a cryptocurrency between two exchanges, without taking into account trading fees and foreign exchange spread. For example, suppose BTC is being offered (ask price, sell price) at 7010 USD on exchange1 and is being bidden (bid price, buy price) at 7150 USD on exchange2. This means there is a (7150-7010)/7010 = 1.997% gross profit margin. We can buy BTC on exchange1 for 7010 USD then sell the same amout of BTC on exchange2 for 7150 USD and gain (7150-7010) = 140 USD per BTC, before fees. * trading profit margin Price difference percentage of a cryptocurrency between two exchanges, after taking into account trading fees. For example, suppose BTC is being offered (ask price, sell price) at 7010 USD on exchange1 and is being bidden (bid price, buy price) at 7150 USD on exchange2. Trading (market maker) fee on exchange1 is 0.3% and on exchange2 is 0.25%. After trading fees, the ask price becomes 7010 * (1+0.3%) = 7031.03 USD and the bid price becomes 7150 * (1-0.25%) = 7132.125. The trading profit margin is (7132.125-7031.03)/7031.03 = 1.438%. We can buy BTC on exchange1 for 7010 USD then sell the same amout of BTC on exchange2 for 7150 USD and still gain (7132.125-7031.03) = 101.095 USD per BTC, after trading fees. * net profit margin Price difference percentage of a cryptocurrency between two exchanges, after taking into account trading fees and foreign exchange spread. If the price on both exchanges are quoted in the same currency (e.g. USD) then there is no forex spread and net profit margin is the same as trading profit margin. If the quoting currencies are different, e.g. USD on exchange1 and IDR on exchange2, then first we calculate gross and trading profit margin using prices converted to USD using average forex rate (highest forex dealer's sell price + lowest buy price, divided by two). Then we subtract trading profit margin with forex spread for safety. For example, suppose BTC is being offered (ask price, sell price) at 7010 USD on exchange1 and is being bidden (bid price, buy price) at 99,500,000 IDR on exchange2. The forex rate for USD/IDR is: buy 13,895, sell 13,925, average (13,925+13,895)/2 = 13,910, spread (13,925-13,895)/13,895 = 0.216%. The price on exchange2 in USD is 99,500,000 / 13,910 = 7153.127 USD. Trading (market maker) fee on exchange1 is 0.3% and on exchange2 is 0.25%. After trading fees, the ask price becomes 7010 * (1+0.3%) = 7031.03 USD and the bid price becomes 7153.127 * (1-0.25%) = 7135.244. The trading profit margin is (7135.244-7031.03)/7031.03 = 1.482%. We can buy BTC on exchange1 for 7010 USD then sell the same amout of BTC on exchange2 for 7150 USD and still gain (7132.125-7031.03) = 101.095 USD per BTC, after trading fees. The net profit margin is 1.482% - 0.216% = 1.266%. INTERNAL NOTES The cryp app family uses Perinci::CmdLine::cryp which puts cryp-specific information from the configuration into the $r->{_cryp} hash: $r->{_cryp} {arbit_strategies} # from [arbit-strategy/XXX] config sections {exchanges} # from [exchange/XXX(/YYY)?] config sections {masternodes} # from [masternode/XXX(/YYY)?] config sections {wallet} # from [wallet/COIN] Routines inside this module communicate with one another either using the database (obviously), or by putting stuffs in $r (the request hash/stash) and passing $r around. The keys that are used by routines in this module: $r->{_stash} {dbh} {account_balances} # key=exchange safename, value={currency1 => [{account=>account1, account_id=>aid, available=>..., ...}, {...}]}. value->{currency} sorted by largest available balance first {account_exchanges} # key=exchange safename, value={account1 => 1, ...} {account_ids} # key=exchange safename, value={account1 => numeric ID from db, ...} {base_currencies} # target (crypto)currencies to arbitrage {exchange_clients} # key=exchange safename, value={account1 => $client1, ...} {exchange_ids} # key=exchange safename, value=exchange (numeric) ID from db {exchange_recs} # key=exchange safename, value=hash (from CryptoExchange::Catalog) {exchange_coins} # key=exchange safename, value=[COIN1, COIN2, ...] {exchange_pairs} # key=exchange safename, value=[{name=>PAIR1, min_base_size=>..., min_quote_size=>...}, ...] {forex_rates} # key=currency pair (e.g. IDR/USD), val=exchange rate (avg rate) {forex_spreads} # key=fiat currency pair, e.g. USD/IDR, value=percentage {fx} # key=currency value=result from get_spot_rate() {order_pairs} # result from calculate_order_pairs() {quote_currencies} # what currencies we use to buy/sell the base currencies {quote_currencies_for} # key=base currency, value={quotecurrency1 => 1, quotecurrency2=>1, ...} {trading_fees} # key=exchange safename, value={coin1=>num (in percent) market taker fees, ...}, ':default' for all other coins, ':default' for all other exchanges FUNCTIONS arbit Usage: arbit(%args) -> [status, msg, result, meta] Perform arbitrage. This utility monitors prices of several cryptocurrencies ("base currencies", e.g. LTC) in several cryptoexchanges. The "quote currency" can be fiat (e.g. USD, all other fiat currencies will be converted to USD) or another cryptocurrency (usually BTC). When it detects a net price difference for a base currency that is large enough (see "min_net_profit_margin" option), it will perform a buy order on the exchange that has the lower price and sell the exact same amount of base currency on the exchange that has the higher price. For example, if on XCHG1 the buy price of LTC 100.01 USD and on XCHG2 the sell price of LTC is 98.80 USD, then this utility will buy LTC on XCHG2 for 98.80 USD and sell the same amount of LTD on XCHG1 for 100.01 USD. The profit is (100.01 - 98.80 - trading fees) per LTC arbitraged. You have to maintain enough LTC balance on XCHG1 and enough USD balance on XCHG2. The balances are called inventories or your working capital. You fill and transfer inventories manually to refill balances and/or to collect profits. This function is not exported. This function supports dry-run operation. Arguments ('*' denotes required arguments): * accounts => *array[cryptoexchange::account]* Cryptoexchange accounts. There should at least be two accounts, on at least two different cryptoexchanges. If not specified, all accounts listed on the configuration file will be included. Note that it's possible to include two or more accounts on the same cryptoexchange. * base_currencies => *array[cryptocurrency]* Target (crypto)currencies to arbitrate. If not specified, will list all supported pairs on all the exchanges and include the base cryptocurrencies that are listed on at least 2 different exchanges (for arbitrage possibility). * db_name* => *str* * db_password => *str* * db_username => *str* * frequency => *posint* (default: 30) How many seconds to wait between rounds (in seconds). A round consists of checking prices and then creating arbitraging order pairs. * max_order_age => *posint* (default: 86400) How long should we wait for orders to be completed before cancelling them (in seconds). Sometimes because of rapid trading and price movement, our order might not be filled immediately. This setting sets a limit on how long should an order be left open. After this limit is reached, we cancel the order. The imbalance of the arbitrage transaction will be recorded. * max_order_pairs_per_round => *posint* Maximum number of order pairs to create per round. * max_order_quote_size => *float* (default: 100) What is the maximum amount of a single order. A single order will be limited to not be above this value (in quote currency, which if fiat will be converted to USD). This is the amount for the buying (because an arbitrage transaction is comprised of a pair of orders, where one order is a selling order at a higher quote currency size than the buying order). For example if you are arbitraging BTC against USD and IDR, and set this option to 75, then orders will not be above 75 USD. If you are arbitraging LTC against BTC and set this to 0.03 then orders will not be above 0.03 BTC. Suggestion: If you set this option too high, a few orders can use up your inventory (and you might not be getting optimal profit percentage). Also, large orders can take a while (or too long) to fill. If you set this option too low, you will hit the exchanges' minimum order size and no orders can be created. Since we want smaller risk of orders not getting filled quickly, we want small order sizes. The optimum number range a little above the exchanges' minimum order size. * min_account_balances => *hash* What are the minimum account balances. * min_net_profit_margin => *float* (default: 0) Minimum net profit margin that will trigger an arbitrage trading, in percentage. Below this percentage number, no order pairs will be sent to the exchanges to do the arbitrage. Note that the net profit margin already takes into account trading fees and forex spread (see Glossary section for more details and illustration). Suggestion: If you set this option too high, there might not be any order pairs possible. If you set this option too low, you will be getting too thin profits. Run "cryp-arbit opportunities" or "cryp-arbit arbit --dry-run" for a while to see what the average percentage is and then decide at which point you want to perform arbitrage. * quote_currencies => *array[fiat_or_cryptocurrency]* The currencies to exchange (buy/sell) the target currencies. You can have fiat currencies as the quote currencies, to buy/sell the target (base) currencies during arbitrage. For example, to arbitrage LTC against USD and IDR, "base_currencies" is ['BTC'] and "quote_currencies" is ['USD', 'IDR']. You can also arbitrage cryptocurrencies against other cryptocurrency (usually BTC, "the USD of cryptocurrencies"). For example, to arbitrage XMR and LTC against BTC, "base_currencies" is ['XMR', 'LTC'] and "quote_currencies" is ['BTC']. * rounds => *int* (default: 1) How many rounds. -1 means unlimited. * strategy => *str* (default: "merge_order_book") Which strategy to use for arbitration. Strategy is implemented in a "App::cryp::arbit::Strategy::*" perl module. Special arguments: * -dry_run => *bool* Pass -dry_run=>1 to enable simulation mode. Returns an enveloped result (an array). First element (status) is an integer containing HTTP status code (200 means OK, 4xx caller error, 5xx function error). Second element (msg) is a string containing error message, or 'OK' if status is 200. Third element (result) is optional, the actual result. Fourth element (meta) is called result metadata and is optional, a hash that contains extra information. Return value: (any) check_orders Usage: check_orders(%args) -> [status, msg, result, meta] Check the orders that have been created. This subcommand will check the orders that have been created previously by "arbit" subcommand. It will update the order status and filled size (if still open). It will cancel (give up) the orders if deemed too old. This function is not exported. Arguments ('*' denotes required arguments): * db_name* => *str* * db_password => *str* * db_username => *str* * max_order_age => *posint* (default: 86400) How long should we wait for orders to be completed before cancelling them (in seconds). Sometimes because of rapid trading and price movement, our order might not be filled immediately. This setting sets a limit on how long should an order be left open. After this limit is reached, we cancel the order. The imbalance of the arbitrage transaction will be recorded. Returns an enveloped result (an array). First element (status) is an integer containing HTTP status code (200 means OK, 4xx caller error, 5xx function error). Second element (msg) is a string containing error message, or 'OK' if status is 200. Third element (result) is optional, the actual result. Fourth element (meta) is called result metadata and is optional, a hash that contains extra information. Return value: (any) dump_cryp_config Usage: dump_cryp_config() -> [status, msg, result, meta] This function is not exported. No arguments. Returns an enveloped result (an array). First element (status) is an integer containing HTTP status code (200 means OK, 4xx caller error, 5xx function error). Second element (msg) is a string containing error message, or 'OK' if status is 200. Third element (result) is optional, the actual result. Fourth element (meta) is called result metadata and is optional, a hash that contains extra information. Return value: (any) get_profit_report Usage: get_profit_report(%args) -> [status, msg, result, meta] Get profit report. This function is not exported. Arguments ('*' denotes required arguments): * db_name* => *str* * db_password => *str* * db_username => *str* * detail => *bool* * time_end => *date* * time_start => *date* Returns an enveloped result (an array). First element (status) is an integer containing HTTP status code (200 means OK, 4xx caller error, 5xx function error). Second element (msg) is a string containing error message, or 'OK' if status is 200. Third element (result) is optional, the actual result. Fourth element (meta) is called result metadata and is optional, a hash that contains extra information. Return value: (any) list_order_pairs Usage: list_order_pairs(%args) -> [status, msg, result, meta] List created order pairs. This function is not exported. Arguments ('*' denotes required arguments): * db_name* => *str* * db_password => *str* * db_username => *str* * open => *bool* * time_end => *date* * time_start => *date* Returns an enveloped result (an array). First element (status) is an integer containing HTTP status code (200 means OK, 4xx caller error, 5xx function error). Second element (msg) is a string containing error message, or 'OK' if status is 200. Third element (result) is optional, the actual result. Fourth element (meta) is called result metadata and is optional, a hash that contains extra information. Return value: (any) show_opportunities Usage: show_opportunities(%args) -> [status, msg, result, meta] Show arbitrage opportunities. This subcommand, like the "arbit" subcommand, checks prices of cryptocurrencies on several exchanges for arbitrage possibility; but does not actually perform the arbitraging. This function is not exported. Arguments ('*' denotes required arguments): * accounts => *array[cryptoexchange::account]* Cryptoexchange accounts. There should at least be two accounts, on at least two different cryptoexchanges. If not specified, all accounts listed on the configuration file will be included. Note that it's possible to include two or more accounts on the same cryptoexchange. * base_currencies => *array[cryptocurrency]* Target (crypto)currencies to arbitrate. If not specified, will list all supported pairs on all the exchanges and include the base cryptocurrencies that are listed on at least 2 different exchanges (for arbitrage possibility). * db_name* => *str* * db_password => *str* * db_username => *str* * ignore_balance => *bool* (default: 0) Ignore account balances. * ignore_min_order_size => *bool* (default: 0) Ignore minimum order size limitation from exchanges. * max_order_pairs_per_round => *posint* Maximum number of order pairs to create per round. * max_order_quote_size => *float* (default: 100) What is the maximum amount of a single order. A single order will be limited to not be above this value (in quote currency, which if fiat will be converted to USD). This is the amount for the buying (because an arbitrage transaction is comprised of a pair of orders, where one order is a selling order at a higher quote currency size than the buying order). For example if you are arbitraging BTC against USD and IDR, and set this option to 75, then orders will not be above 75 USD. If you are arbitraging LTC against BTC and set this to 0.03 then orders will not be above 0.03 BTC. Suggestion: If you set this option too high, a few orders can use up your inventory (and you might not be getting optimal profit percentage). Also, large orders can take a while (or too long) to fill. If you set this option too low, you will hit the exchanges' minimum order size and no orders can be created. Since we want smaller risk of orders not getting filled quickly, we want small order sizes. The optimum number range a little above the exchanges' minimum order size. * min_account_balances => *hash* What are the minimum account balances. * min_net_profit_margin => *float* (default: 0) Minimum net profit margin that will trigger an arbitrage trading, in percentage. Below this percentage number, no order pairs will be sent to the exchanges to do the arbitrage. Note that the net profit margin already takes into account trading fees and forex spread (see Glossary section for more details and illustration). Suggestion: If you set this option too high, there might not be any order pairs possible. If you set this option too low, you will be getting too thin profits. Run "cryp-arbit opportunities" or "cryp-arbit arbit --dry-run" for a while to see what the average percentage is and then decide at which point you want to perform arbitrage. * quote_currencies => *array[fiat_or_cryptocurrency]* The currencies to exchange (buy/sell) the target currencies. You can have fiat currencies as the quote currencies, to buy/sell the target (base) currencies during arbitrage. For example, to arbitrage LTC against USD and IDR, "base_currencies" is ['BTC'] and "quote_currencies" is ['USD', 'IDR']. You can also arbitrage cryptocurrencies against other cryptocurrency (usually BTC, "the USD of cryptocurrencies"). For example, to arbitrage XMR and LTC against BTC, "base_currencies" is ['XMR', 'LTC'] and "quote_currencies" is ['BTC']. * strategy => *str* (default: "merge_order_book") Which strategy to use for arbitration. Strategy is implemented in a "App::cryp::arbit::Strategy::*" perl module. Returns an enveloped result (an array). First element (status) is an integer containing HTTP status code (200 means OK, 4xx caller error, 5xx function error). Second element (msg) is a string containing error message, or 'OK' if status is 200. Third element (result) is optional, the actual result. Fourth element (meta) is called result metadata and is optional, a hash that contains extra information. Return value: (any) BUGS Please report all bug reports or feature requests to . SEE ALSO AUTHOR perlancar COPYRIGHT AND LICENSE This software is copyright (c) 2018 by perlancar@cpan.org. This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.