d0zingcat/gocryptotrader
1
0
Fork 0
mirror of https://github.com/d0zingcat/gocryptotrader.git synced 2026-05-14 07:26:47 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
a422cb2e7fb96c01ec39c71bd9bff4d5c9f64396
gocryptotrader/engine/rpcserver.go
Ryan O'Hara-Reid 7b718700f7 orderbook: Implement initial linked list (#643) 
* Exchanges: Initial implementation after rebase of depth (WIP)

* orderbook/buffer: convert and couple orderbook interaction functionality from buffer to orderbook linked list - Use single point reference for orderbook depth

* buffer/orderbook: conversion continued (WIP)

* exchange: buffer/linkedlist handover (WIP)

* Added some tests for yesterday

* linkedList: added more testing and trying to figure out broken things

* Started tying everything in

* continuous integration and testing

* orderbook: expanded tests

* go mod tidy

* Add in different synchornisation levels for protocols
Add in timer for the streaming system to reduce updates to datahandler
Add in more test code as I integrate more exchanges

* Depth: Add tests, add length check to call linked list updating, add in constructor.
Linked List: Improve tests, add in checks for zero liquidity on books.
Node: Added in cleaner POC, add in contructor.
Buffer: Fixed tests, checked benchmarks.

* orderbook: reinstate dispatch calls

* Addr glorious & madcozbad nits

* fix functionality and add tests

* Address linterinos

* remove label

* expanded comment

* fix races and and bitmex test

* reinstate go routine for alerting changes

* rm line :D

* fix more tests

* Addr glorious nits

* rm glorious field

* depth: defer unlock to stop deadlock

* orderbook: remove unused vars

* buffer: fix test to what it should be

* nits: madcosbad addr

* nits: glorious nits

* linkedlist: remove unused params

* orderbook: shift time call to outside of push to inline, add in case for update inster price for zero liquidity, nits

* orderbook: nits addressed

* engine: change stream -> websocket convention and remove unused function

* nits: glorious nits

* Websocket Buffer: Add verbosity switch

* linked list: Add comment

* linked list: fix spelling

* nits: glorious nits

* orderbook: Adds in test and explicit time type with constructor, fix nits

* linter

* spelling: removed the dere fence

* depth: Update alerting mechanism to a more battle tested state

* depth: spelling

* nits: glorious nits

* linked list: match cases

* buffer: fix linter issue

* golangci: increase timeout by 30 seconds

* nodes: update atomic checks

* spelling: fix

* node: add in commentary

* exchanges/syncer: add function to switch over to REST when websocket functionality is not available for a specific asset type

* linter: exchange linter issues

* syncer: Add in warning

* nits: glorious nits

* AssetWebsocketSupport: unexport map

* Nits: Adrr

* rm letter

* exchanges: Orderbook verification change for naming, deprecate checksum bypass as it has the potential to obfuscate errors that are at the tail end of the book, add in verification for websocket stream updates

* general: fix spelling remove breakpoint

* nits: fix more glorious nits until more are found

* orderbook: fix tests

* orderbook: fix wait tests and add in more checks

* nits: addr

* orderbook: remove dispatch reference

* linkedlist: consolidate bid/ask functions

* linked lisdt: remove words

* fix spelling
2021-04-23 15:16:01 +10:00

3105 lines
87 KiB
Go
Raw Blame History

package engine
import (
"context"
"encoding/json"
"errors"
"fmt"
"io/ioutil"
"net"
"net/http"
"os"
"path/filepath"
"strconv"
"strings"
"time"
"github.com/gofrs/uuid"
"github.com/golang/protobuf/ptypes"
grpcauth "github.com/grpc-ecosystem/go-grpc-middleware/auth"
"github.com/grpc-ecosystem/grpc-gateway/v2/runtime"
"github.com/thrasher-corp/gocryptotrader/common"
"github.com/thrasher-corp/gocryptotrader/common/crypto"
"github.com/thrasher-corp/gocryptotrader/common/file"
"github.com/thrasher-corp/gocryptotrader/common/file/archive"
"github.com/thrasher-corp/gocryptotrader/common/timeperiods"
"github.com/thrasher-corp/gocryptotrader/currency"
"github.com/thrasher-corp/gocryptotrader/database"
"github.com/thrasher-corp/gocryptotrader/database/models/postgres"
"github.com/thrasher-corp/gocryptotrader/database/models/sqlite3"
"github.com/thrasher-corp/gocryptotrader/database/repository/audit"
exchangeDB "github.com/thrasher-corp/gocryptotrader/database/repository/exchange"
exchange "github.com/thrasher-corp/gocryptotrader/exchanges"
"github.com/thrasher-corp/gocryptotrader/exchanges/account"
"github.com/thrasher-corp/gocryptotrader/exchanges/asset"
"github.com/thrasher-corp/gocryptotrader/exchanges/kline"
"github.com/thrasher-corp/gocryptotrader/exchanges/order"
"github.com/thrasher-corp/gocryptotrader/exchanges/orderbook"
"github.com/thrasher-corp/gocryptotrader/exchanges/ticker"
"github.com/thrasher-corp/gocryptotrader/exchanges/trade"
"github.com/thrasher-corp/gocryptotrader/gctrpc"
"github.com/thrasher-corp/gocryptotrader/gctrpc/auth"
gctscript "github.com/thrasher-corp/gocryptotrader/gctscript/vm"
"github.com/thrasher-corp/gocryptotrader/log"
"github.com/thrasher-corp/gocryptotrader/portfolio"
"github.com/thrasher-corp/gocryptotrader/portfolio/banking"
"github.com/thrasher-corp/gocryptotrader/portfolio/withdraw"
"github.com/thrasher-corp/gocryptotrader/utils"
"google.golang.org/grpc"
"google.golang.org/grpc/credentials"
"google.golang.org/grpc/metadata"
)
var (
errExchangeNotLoaded = errors.New("exchange is not loaded/doesn't exist")
errExchangeBaseNotFound = errors.New("cannot get exchange base")
errInvalidArguments = errors.New("invalid arguments received")
errExchangeNameUnset = errors.New("exchange name unset")
errCurrencyPairUnset = errors.New("currency pair unset")
errInvalidTimes = errors.New("invalid start and end times")
errAssetTypeDisabled = errors.New("asset type is disabled")
errAssetTypeUnset = errors.New("asset type unset")
errDispatchSystem = errors.New("dispatch system offline")
errCurrencyNotEnabled = errors.New("currency not enabled")
errCurrencyPairInvalid = errors.New("currency provided is not found in the available pairs list")
)
// RPCServer struct
type RPCServer struct {
*Engine
gctrpc.UnimplementedGoCryptoTraderServer
}
func (bot *Engine) authenticateClient(ctx context.Context) (context.Context, error) {
md, ok := metadata.FromIncomingContext(ctx)
if !ok {
return ctx, fmt.Errorf("unable to extract metadata")
}
authStr, ok := md["authorization"]
if !ok {
return ctx, fmt.Errorf("authorization header missing")
}
if !strings.Contains(authStr[0], "Basic") {
return ctx, fmt.Errorf("basic not found in authorization header")
}
decoded, err := crypto.Base64Decode(strings.Split(authStr[0], " ")[1])
if err != nil {
return ctx, fmt.Errorf("unable to base64 decode authorization header")
}
username := strings.Split(string(decoded), ":")[0]
password := strings.Split(string(decoded), ":")[1]
if username != bot.Config.RemoteControl.Username || password != bot.Config.RemoteControl.Password {
return ctx, fmt.Errorf("username/password mismatch")
}
return ctx, nil
}
// StartRPCServer starts a gRPC server with TLS auth
func StartRPCServer(engine *Engine) {
targetDir := utils.GetTLSDir(engine.Settings.DataDir)
err := checkCerts(targetDir)
if err != nil {
log.Errorf(log.GRPCSys, "gRPC checkCerts failed. err: %s\n", err)
return
}
log.Debugf(log.GRPCSys, "gRPC server support enabled. Starting gRPC server on https://%v.\n", engine.Config.RemoteControl.GRPC.ListenAddress)
lis, err := net.Listen("tcp", engine.Config.RemoteControl.GRPC.ListenAddress)
if err != nil {
log.Errorf(log.GRPCSys, "gRPC server failed to bind to port: %s", err)
return
}
creds, err := credentials.NewServerTLSFromFile(filepath.Join(targetDir, "cert.pem"), filepath.Join(targetDir, "key.pem"))
if err != nil {
log.Errorf(log.GRPCSys, "gRPC server could not load TLS keys: %s\n", err)
return
}
opts := []grpc.ServerOption{
grpc.Creds(creds),
grpc.UnaryInterceptor(grpcauth.UnaryServerInterceptor(engine.authenticateClient)),
}
server := grpc.NewServer(opts...)
s := RPCServer{Engine: engine}
gctrpc.RegisterGoCryptoTraderServer(server, &s)
go func() {
if err := server.Serve(lis); err != nil {
log.Errorf(log.GRPCSys, "gRPC server failed to serve: %s\n", err)
return
}
}()
log.Debugln(log.GRPCSys, "gRPC server started!")
if s.Settings.EnableGRPCProxy {
s.StartRPCRESTProxy()
}
}
// StartRPCRESTProxy starts a gRPC proxy
func (s *RPCServer) StartRPCRESTProxy() {
log.Debugf(log.GRPCSys, "gRPC proxy server support enabled. Starting gRPC proxy server on http://%v.\n", s.Config.RemoteControl.GRPC.GRPCProxyListenAddress)
targetDir := utils.GetTLSDir(s.Settings.DataDir)
creds, err := credentials.NewClientTLSFromFile(filepath.Join(targetDir, "cert.pem"), "")
if err != nil {
log.Errorf(log.GRPCSys, "Unabled to start gRPC proxy. Err: %s\n", err)
return
}
mux := runtime.NewServeMux()
opts := []grpc.DialOption{grpc.WithTransportCredentials(creds),
grpc.WithPerRPCCredentials(auth.BasicAuth{
Username: s.Config.RemoteControl.Username,
Password: s.Config.RemoteControl.Password,
}),
}
err = gctrpc.RegisterGoCryptoTraderHandlerFromEndpoint(context.Background(),
mux, s.Config.RemoteControl.GRPC.ListenAddress, opts)
if err != nil {
log.Errorf(log.GRPCSys, "Failed to register gRPC proxy. Err: %s\n", err)
return
}
go func() {
if err := http.ListenAndServe(s.Config.RemoteControl.GRPC.GRPCProxyListenAddress, mux); err != nil {
log.Errorf(log.GRPCSys, "gRPC proxy failed to server: %s\n", err)
return
}
}()
log.Debugln(log.GRPCSys, "gRPC proxy server started!")
}
// GetInfo returns info about the current GoCryptoTrader session
func (s *RPCServer) GetInfo(_ context.Context, r *gctrpc.GetInfoRequest) (*gctrpc.GetInfoResponse, error) {
d := time.Since(s.Uptime)
resp := gctrpc.GetInfoResponse{
Uptime: d.String(),
EnabledExchanges: int64(s.Config.CountEnabledExchanges()),
AvailableExchanges: int64(len(s.Config.Exchanges)),
DefaultFiatCurrency: s.Config.Currency.FiatDisplayCurrency.String(),
DefaultForexProvider: s.Config.GetPrimaryForexProvider(),
SubsystemStatus: s.GetSubsystemsStatus(),
}
endpoints := GetRPCEndpoints()
resp.RpcEndpoints = make(map[string]*gctrpc.RPCEndpoint)
for k, v := range endpoints {
resp.RpcEndpoints[k] = &gctrpc.RPCEndpoint{
Started: v.Started,
ListenAddress: v.ListenAddr,
}
}
return &resp, nil
}
// GetSubsystems returns a list of subsystems and their status
func (s *RPCServer) GetSubsystems(_ context.Context, r *gctrpc.GetSubsystemsRequest) (*gctrpc.GetSusbsytemsResponse, error) {
return &gctrpc.GetSusbsytemsResponse{SubsystemsStatus: s.GetSubsystemsStatus()}, nil
}
// EnableSubsystem enables a engine subsytem
func (s *RPCServer) EnableSubsystem(_ context.Context, r *gctrpc.GenericSubsystemRequest) (*gctrpc.GenericResponse, error) {
err := s.SetSubsystem(r.Subsystem, true)
if err != nil {
return nil, err
}
return &gctrpc.GenericResponse{Status: MsgStatusSuccess,
Data: fmt.Sprintf("subsystem %s enabled", r.Subsystem)}, nil
}
// DisableSubsystem disables a engine subsytem
func (s *RPCServer) DisableSubsystem(_ context.Context, r *gctrpc.GenericSubsystemRequest) (*gctrpc.GenericResponse, error) {
err := s.SetSubsystem(r.Subsystem, false)
if err != nil {
return nil, err
}
return &gctrpc.GenericResponse{Status: MsgStatusSuccess,
Data: fmt.Sprintf("subsystem %s disabled", r.Subsystem)}, nil
}
// GetRPCEndpoints returns a list of API endpoints
func (s *RPCServer) GetRPCEndpoints(_ context.Context, r *gctrpc.GetRPCEndpointsRequest) (*gctrpc.GetRPCEndpointsResponse, error) {
endpoints := GetRPCEndpoints()
var resp gctrpc.GetRPCEndpointsResponse
resp.Endpoints = make(map[string]*gctrpc.RPCEndpoint)
for k, v := range endpoints {
resp.Endpoints[k] = &gctrpc.RPCEndpoint{
Started: v.Started,
ListenAddress: v.ListenAddr,
}
}
return &resp, nil
}
// GetCommunicationRelayers returns the status of the engines communication relayers
func (s *RPCServer) GetCommunicationRelayers(_ context.Context, r *gctrpc.GetCommunicationRelayersRequest) (*gctrpc.GetCommunicationRelayersResponse, error) {
relayers, err := s.CommsManager.GetStatus()
if err != nil {
return nil, err
}
var resp gctrpc.GetCommunicationRelayersResponse
resp.CommunicationRelayers = make(map[string]*gctrpc.CommunicationRelayer)
for k, v := range relayers {
resp.CommunicationRelayers[k] = &gctrpc.CommunicationRelayer{
Enabled: v.Enabled,
Connected: v.Connected,
}
}
return &resp, nil
}
// GetExchanges returns a list of exchanges
// Param is whether or not you wish to list enabled exchanges
func (s *RPCServer) GetExchanges(_ context.Context, r *gctrpc.GetExchangesRequest) (*gctrpc.GetExchangesResponse, error) {
exchanges := strings.Join(s.GetExchangeNames(r.Enabled), ",")
return &gctrpc.GetExchangesResponse{Exchanges: exchanges}, nil
}
// DisableExchange disables an exchange
func (s *RPCServer) DisableExchange(_ context.Context, r *gctrpc.GenericExchangeNameRequest) (*gctrpc.GenericResponse, error) {
err := s.UnloadExchange(r.Exchange)
if err != nil {
return nil, err
}
return &gctrpc.GenericResponse{Status: MsgStatusSuccess}, nil
}
// EnableExchange enables an exchange
func (s *RPCServer) EnableExchange(_ context.Context, r *gctrpc.GenericExchangeNameRequest) (*gctrpc.GenericResponse, error) {
err := s.LoadExchange(r.Exchange, false, nil)
if err != nil {
return nil, err
}
return &gctrpc.GenericResponse{Status: MsgStatusSuccess}, nil
}
// GetExchangeOTPCode retrieves an exchanges OTP code
func (s *RPCServer) GetExchangeOTPCode(_ context.Context, r *gctrpc.GenericExchangeNameRequest) (*gctrpc.GetExchangeOTPReponse, error) {
result, err := s.GetExchangeoOTPByName(r.Exchange)
return &gctrpc.GetExchangeOTPReponse{OtpCode: result}, err
}
// GetExchangeOTPCodes retrieves OTP codes for all exchanges which have an
// OTP secret installed
func (s *RPCServer) GetExchangeOTPCodes(_ context.Context, r *gctrpc.GetExchangeOTPsRequest) (*gctrpc.GetExchangeOTPsResponse, error) {
result, err := s.GetExchangeOTPs()
return &gctrpc.GetExchangeOTPsResponse{OtpCodes: result}, err
}
// GetExchangeInfo gets info for a specific exchange
func (s *RPCServer) GetExchangeInfo(_ context.Context, r *gctrpc.GenericExchangeNameRequest) (*gctrpc.GetExchangeInfoResponse, error) {
exchCfg, err := s.Config.GetExchangeConfig(r.Exchange)
if err != nil {
return nil, err
}
resp := &gctrpc.GetExchangeInfoResponse{
Name: exchCfg.Name,
Enabled: exchCfg.Enabled,
Verbose: exchCfg.Verbose,
UsingSandbox: exchCfg.UseSandbox,
HttpTimeout: exchCfg.HTTPTimeout.String(),
HttpUseragent: exchCfg.HTTPUserAgent,
HttpProxy: exchCfg.ProxyAddress,
BaseCurrencies: strings.Join(exchCfg.BaseCurrencies.Strings(), ","),
}
resp.SupportedAssets = make(map[string]*gctrpc.PairsSupported)
assets := exchCfg.CurrencyPairs.GetAssetTypes()
for i := range assets {
ps, err := exchCfg.CurrencyPairs.Get(assets[i])
if err != nil {
return nil, err
}
resp.SupportedAssets[assets[i].String()] = &gctrpc.PairsSupported{
EnabledPairs: ps.Enabled.Join(),
AvailablePairs: ps.Available.Join(),
}
}
return resp, nil
}
// GetTicker returns the ticker for a specified exchange, currency pair and
// asset type
func (s *RPCServer) GetTicker(_ context.Context, r *gctrpc.GetTickerRequest) (*gctrpc.TickerResponse, error) {
a, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
e := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, e, a, currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
})
if err != nil {
return nil, err
}
t, err := s.GetSpecificTicker(currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
},
r.Exchange,
a,
)
if err != nil {
return nil, err
}
resp := &gctrpc.TickerResponse{
Pair: r.Pair,
LastUpdated: t.LastUpdated.Unix(),
Last: t.Last,
High: t.High,
Low: t.Low,
Bid: t.Bid,
Ask: t.Ask,
Volume: t.Volume,
PriceAth: t.PriceATH,
}
return resp, nil
}
// GetTickers returns a list of tickers for all enabled exchanges and all
// enabled currency pairs
func (s *RPCServer) GetTickers(_ context.Context, r *gctrpc.GetTickersRequest) (*gctrpc.GetTickersResponse, error) {
activeTickers := s.GetAllActiveTickers()
var tickers []*gctrpc.Tickers
for x := range activeTickers {
var ticker gctrpc.Tickers
ticker.Exchange = activeTickers[x].ExchangeName
for y := range activeTickers[x].ExchangeValues {
t := activeTickers[x].ExchangeValues[y]
ticker.Tickers = append(ticker.Tickers, &gctrpc.TickerResponse{
Pair: &gctrpc.CurrencyPair{
Delimiter: t.Pair.Delimiter,
Base: t.Pair.Base.String(),
Quote: t.Pair.Quote.String(),
},
LastUpdated: t.LastUpdated.Unix(),
Last: t.Last,
High: t.High,
Low: t.Low,
Bid: t.Bid,
Ask: t.Ask,
Volume: t.Volume,
PriceAth: t.PriceATH,
})
}
tickers = append(tickers, &ticker)
}
return &gctrpc.GetTickersResponse{Tickers: tickers}, nil
}
// GetOrderbook returns an orderbook for a specific exchange, currency pair
// and asset type
func (s *RPCServer) GetOrderbook(_ context.Context, r *gctrpc.GetOrderbookRequest) (*gctrpc.OrderbookResponse, error) {
a, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
ob, err := s.GetSpecificOrderbook(currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
},
r.Exchange,
a,
)
if err != nil {
return nil, err
}
bids := make([]*gctrpc.OrderbookItem, 0, len(ob.Bids))
asks := make([]*gctrpc.OrderbookItem, 0, len(ob.Asks))
ch := make(chan bool)
go func() {
for _, b := range ob.Bids {
bids = append(bids, &gctrpc.OrderbookItem{
Amount: b.Amount,
Price: b.Price,
})
}
ch <- true
}()
for _, a := range ob.Asks {
asks = append(asks, &gctrpc.OrderbookItem{
Amount: a.Amount,
Price: a.Price,
})
}
<-ch
resp := &gctrpc.OrderbookResponse{
Pair: r.Pair,
Bids: bids,
Asks: asks,
LastUpdated: ob.LastUpdated.Unix(),
AssetType: r.AssetType,
}
return resp, nil
}
// GetOrderbooks returns a list of orderbooks for all enabled exchanges and all
// enabled currency pairs
func (s *RPCServer) GetOrderbooks(_ context.Context, r *gctrpc.GetOrderbooksRequest) (*gctrpc.GetOrderbooksResponse, error) {
activeOrderbooks := GetAllActiveOrderbooks()
var orderbooks []*gctrpc.Orderbooks
for x := range activeOrderbooks {
var ob gctrpc.Orderbooks
ob.Exchange = activeOrderbooks[x].ExchangeName
for y := range activeOrderbooks[x].ExchangeValues {
o := activeOrderbooks[x].ExchangeValues[y]
var bids []*gctrpc.OrderbookItem
for z := range o.Bids {
bids = append(bids, &gctrpc.OrderbookItem{
Amount: o.Bids[z].Amount,
Price: o.Bids[z].Price,
})
}
var asks []*gctrpc.OrderbookItem
for z := range o.Asks {
asks = append(asks, &gctrpc.OrderbookItem{
Amount: o.Asks[z].Amount,
Price: o.Asks[z].Price,
})
}
ob.Orderbooks = append(ob.Orderbooks, &gctrpc.OrderbookResponse{
Pair: &gctrpc.CurrencyPair{
Delimiter: o.Pair.Delimiter,
Base: o.Pair.Base.String(),
Quote: o.Pair.Quote.String(),
},
LastUpdated: o.LastUpdated.Unix(),
Bids: bids,
Asks: asks,
})
}
orderbooks = append(orderbooks, &ob)
}
return &gctrpc.GetOrderbooksResponse{Orderbooks: orderbooks}, nil
}
// GetAccountInfo returns an account balance for a specific exchange
func (s *RPCServer) GetAccountInfo(_ context.Context, r *gctrpc.GetAccountInfoRequest) (*gctrpc.GetAccountInfoResponse, error) {
assetType, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, assetType, currency.Pair{})
if err != nil {
return nil, err
}
resp, err := exch.FetchAccountInfo(assetType)
if err != nil {
return nil, err
}
return createAccountInfoRequest(resp)
}
// UpdateAccountInfo forces an update of the account info
func (s *RPCServer) UpdateAccountInfo(ctx context.Context, r *gctrpc.GetAccountInfoRequest) (*gctrpc.GetAccountInfoResponse, error) {
assetType, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, assetType, currency.Pair{})
if err != nil {
return nil, err
}
resp, err := exch.UpdateAccountInfo(assetType)
if err != nil {
return nil, err
}
return createAccountInfoRequest(resp)
}
func createAccountInfoRequest(h account.Holdings) (*gctrpc.GetAccountInfoResponse, error) {
var accounts []*gctrpc.Account
for x := range h.Accounts {
var a gctrpc.Account
a.Id = h.Accounts[x].ID
for _, y := range h.Accounts[x].Currencies {
a.Currencies = append(a.Currencies, &gctrpc.AccountCurrencyInfo{
Currency: y.CurrencyName.String(),
Hold: y.Hold,
TotalValue: y.TotalValue,
})
}
accounts = append(accounts, &a)
}
return &gctrpc.GetAccountInfoResponse{Exchange: h.Exchange, Accounts: accounts}, nil
}
// GetAccountInfoStream streams an account balance for a specific exchange
func (s *RPCServer) GetAccountInfoStream(r *gctrpc.GetAccountInfoRequest, stream gctrpc.GoCryptoTrader_GetAccountInfoStreamServer) error {
assetType, err := asset.New(r.AssetType)
if err != nil {
return err
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, assetType, currency.Pair{})
if err != nil {
return err
}
initAcc, err := exch.FetchAccountInfo(assetType)
if err != nil {
return err
}
var accounts []*gctrpc.Account
for x := range initAcc.Accounts {
var subAccounts []*gctrpc.AccountCurrencyInfo
for y := range initAcc.Accounts[x].Currencies {
subAccounts = append(subAccounts, &gctrpc.AccountCurrencyInfo{
Currency: initAcc.Accounts[x].Currencies[y].CurrencyName.String(),
TotalValue: initAcc.Accounts[x].Currencies[y].TotalValue,
Hold: initAcc.Accounts[x].Currencies[y].Hold,
})
}
accounts = append(accounts, &gctrpc.Account{
Id: initAcc.Accounts[x].ID,
Currencies: subAccounts,
})
}
err = stream.Send(&gctrpc.GetAccountInfoResponse{
Exchange: initAcc.Exchange,
Accounts: accounts,
})
if err != nil {
return err
}
pipe, err := account.SubscribeToExchangeAccount(r.Exchange)
if err != nil {
return err
}
defer pipe.Release()
for {
data, ok := <-pipe.C
if !ok {
return errDispatchSystem
}
acc := (*data.(*interface{})).(account.Holdings)
var accounts []*gctrpc.Account
for x := range acc.Accounts {
var subAccounts []*gctrpc.AccountCurrencyInfo
for y := range acc.Accounts[x].Currencies {
subAccounts = append(subAccounts, &gctrpc.AccountCurrencyInfo{
Currency: acc.Accounts[x].Currencies[y].CurrencyName.String(),
TotalValue: acc.Accounts[x].Currencies[y].TotalValue,
Hold: acc.Accounts[x].Currencies[y].Hold,
})
}
accounts = append(accounts, &gctrpc.Account{
Id: acc.Accounts[x].ID,
Currencies: subAccounts,
})
}
err := stream.Send(&gctrpc.GetAccountInfoResponse{
Exchange: acc.Exchange,
Accounts: accounts,
})
if err != nil {
return err
}
}
}
// GetConfig returns the bots config
func (s *RPCServer) GetConfig(_ context.Context, r *gctrpc.GetConfigRequest) (*gctrpc.GetConfigResponse, error) {
return &gctrpc.GetConfigResponse{}, common.ErrNotYetImplemented
}
// GetPortfolio returns the portfolio details
func (s *RPCServer) GetPortfolio(_ context.Context, r *gctrpc.GetPortfolioRequest) (*gctrpc.GetPortfolioResponse, error) {
var addrs []*gctrpc.PortfolioAddress
botAddrs := s.Portfolio.Addresses
for x := range botAddrs {
addrs = append(addrs, &gctrpc.PortfolioAddress{
Address: botAddrs[x].Address,
CoinType: botAddrs[x].CoinType.String(),
Description: botAddrs[x].Description,
Balance: botAddrs[x].Balance,
})
}
resp := &gctrpc.GetPortfolioResponse{
Portfolio: addrs,
}
return resp, nil
}
// GetPortfolioSummary returns the portfolio summary
func (s *RPCServer) GetPortfolioSummary(_ context.Context, r *gctrpc.GetPortfolioSummaryRequest) (*gctrpc.GetPortfolioSummaryResponse, error) {
result := s.Portfolio.GetPortfolioSummary()
var resp gctrpc.GetPortfolioSummaryResponse
p := func(coins []portfolio.Coin) []*gctrpc.Coin {
var c []*gctrpc.Coin
for x := range coins {
c = append(c,
&gctrpc.Coin{
Coin: coins[x].Coin.String(),
Balance: coins[x].Balance,
Address: coins[x].Address,
Percentage: coins[x].Percentage,
},
)
}
return c
}
resp.CoinTotals = p(result.Totals)
resp.CoinsOffline = p(result.Offline)
resp.CoinsOfflineSummary = make(map[string]*gctrpc.OfflineCoins)
for k, v := range result.OfflineSummary {
var o []*gctrpc.OfflineCoinSummary
for x := range v {
o = append(o,
&gctrpc.OfflineCoinSummary{
Address: v[x].Address,
Balance: v[x].Balance,
Percentage: v[x].Percentage,
},
)
}
resp.CoinsOfflineSummary[k.String()] = &gctrpc.OfflineCoins{
Addresses: o,
}
}
resp.CoinsOnline = p(result.Online)
resp.CoinsOnlineSummary = make(map[string]*gctrpc.OnlineCoins)
for k, v := range result.OnlineSummary {
o := make(map[string]*gctrpc.OnlineCoinSummary)
for x, y := range v {
o[x.String()] = &gctrpc.OnlineCoinSummary{
Balance: y.Balance,
Percentage: y.Percentage,
}
}
resp.CoinsOnlineSummary[k] = &gctrpc.OnlineCoins{
Coins: o,
}
}
return &resp, nil
}
// AddPortfolioAddress adds an address to the portfolio manager
func (s *RPCServer) AddPortfolioAddress(_ context.Context, r *gctrpc.AddPortfolioAddressRequest) (*gctrpc.GenericResponse, error) {
err := s.Portfolio.AddAddress(r.Address,
r.Description,
currency.NewCode(r.CoinType),
r.Balance)
if err != nil {
return nil, err
}
return &gctrpc.GenericResponse{Status: MsgStatusSuccess}, nil
}
// RemovePortfolioAddress removes an address from the portfolio manager
func (s *RPCServer) RemovePortfolioAddress(_ context.Context, r *gctrpc.RemovePortfolioAddressRequest) (*gctrpc.GenericResponse, error) {
err := s.Portfolio.RemoveAddress(r.Address,
r.Description,
currency.NewCode(r.CoinType))
if err != nil {
return nil, err
}
return &gctrpc.GenericResponse{Status: MsgStatusSuccess}, nil
}
// GetForexProviders returns a list of available forex providers
func (s *RPCServer) GetForexProviders(_ context.Context, r *gctrpc.GetForexProvidersRequest) (*gctrpc.GetForexProvidersResponse, error) {
providers := s.Config.GetForexProviders()
if len(providers) == 0 {
return nil, fmt.Errorf("forex providers is empty")
}
var forexProviders []*gctrpc.ForexProvider
for x := range providers {
forexProviders = append(forexProviders, &gctrpc.ForexProvider{
Name: providers[x].Name,
Enabled: providers[x].Enabled,
Verbose: providers[x].Verbose,
RestPollingDelay: providers[x].RESTPollingDelay.String(),
ApiKey: providers[x].APIKey,
ApiKeyLevel: int64(providers[x].APIKeyLvl),
PrimaryProvider: providers[x].PrimaryProvider,
})
}
return &gctrpc.GetForexProvidersResponse{ForexProviders: forexProviders}, nil
}
// GetForexRates returns a list of forex rates
func (s *RPCServer) GetForexRates(_ context.Context, r *gctrpc.GetForexRatesRequest) (*gctrpc.GetForexRatesResponse, error) {
rates, err := currency.GetExchangeRates()
if err != nil {
return nil, err
}
if len(rates) == 0 {
return nil, fmt.Errorf("forex rates is empty")
}
var forexRates []*gctrpc.ForexRatesConversion
for x := range rates {
rate, err := rates[x].GetRate()
if err != nil {
continue
}
// TODO
// inverseRate, err := rates[x].GetInversionRate()
// if err != nil {
// continue
// }
forexRates = append(forexRates, &gctrpc.ForexRatesConversion{
From: rates[x].From.String(),
To: rates[x].To.String(),
Rate: rate,
InverseRate: 0,
})
}
return &gctrpc.GetForexRatesResponse{ForexRates: forexRates}, nil
}
// GetOrders returns all open orders, filtered by exchange, currency pair or
// asset type between optional dates
func (s *RPCServer) GetOrders(_ context.Context, r *gctrpc.GetOrdersRequest) (*gctrpc.GetOrdersResponse, error) {
if r == nil {
return nil, errInvalidArguments
}
a, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
if r.Pair == nil {
return nil, errCurrencyPairUnset
}
cp := currency.NewPairWithDelimiter(
r.Pair.Base,
r.Pair.Quote,
r.Pair.Delimiter)
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, a, cp)
if err != nil {
return nil, err
}
var start, end time.Time
if r.StartDate != "" {
start, err = time.Parse(common.SimpleTimeFormat, r.StartDate)
if err != nil {
return nil, err
}
}
if r.EndDate != "" {
end, err = time.Parse(common.SimpleTimeFormat, r.EndDate)
if err != nil {
return nil, err
}
}
if !start.IsZero() && !end.IsZero() && start.After(end) {
return nil, errInvalidTimes
}
request := &order.GetOrdersRequest{
Pairs: []currency.Pair{cp},
AssetType: a,
}
if !start.IsZero() {
request.StartTime = start
}
if !end.IsZero() {
request.EndTime = end
}
var resp []order.Detail
resp, err = exch.GetActiveOrders(request)
if err != nil {
return nil, err
}
var orders []*gctrpc.OrderDetails
for x := range resp {
var trades []*gctrpc.TradeHistory
for i := range resp[x].Trades {
t := &gctrpc.TradeHistory{
Id: resp[x].Trades[i].TID,
Price: resp[x].Trades[i].Price,
Amount: resp[x].Trades[i].Amount,
Exchange: r.Exchange,
AssetType: a.String(),
OrderSide: resp[x].Trades[i].Side.String(),
Fee: resp[x].Trades[i].Fee,
Total: resp[x].Trades[i].Total,
}
if !resp[x].Trades[i].Timestamp.IsZero() {
t.CreationTime = resp[x].Trades[i].Timestamp.Unix()
}
trades = append(trades, t)
}
o := &gctrpc.OrderDetails{
Exchange: r.Exchange,
Id: resp[x].ID,
ClientOrderId: resp[x].ClientOrderID,
BaseCurrency: resp[x].Pair.Base.String(),
QuoteCurrency: resp[x].Pair.Quote.String(),
AssetType: resp[x].AssetType.String(),
OrderSide: resp[x].Side.String(),
OrderType: resp[x].Type.String(),
Status: resp[x].Status.String(),
Price: resp[x].Price,
Amount: resp[x].Amount,
OpenVolume: resp[x].Amount - resp[x].ExecutedAmount,
Fee: resp[x].Fee,
Cost: resp[x].Cost,
Trades: trades,
}
if !resp[x].Date.IsZero() {
o.CreationTime = resp[x].Date.Unix()
}
if !resp[x].LastUpdated.IsZero() {
o.UpdateTime = resp[x].LastUpdated.Unix()
}
orders = append(orders, o)
}
return &gctrpc.GetOrdersResponse{Orders: orders}, nil
}
// GetOrder returns order information based on exchange and order ID
func (s *RPCServer) GetOrder(_ context.Context, r *gctrpc.GetOrderRequest) (*gctrpc.OrderDetails, error) {
if r == nil {
return nil, errInvalidArguments
}
if r.Pair == nil {
return nil, errCurrencyPairUnset
}
pair := currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
}
a, err := asset.New(r.Asset)
if err != nil {
return nil, err
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, a, pair)
if err != nil {
return nil, err
}
result, err := s.OrderManager.GetOrderInfo(r.Exchange, r.OrderId, pair, a)
if err != nil {
return nil, fmt.Errorf("error whilst trying to retrieve info for order %s: %w", r.OrderId, err)
}
var trades []*gctrpc.TradeHistory
for i := range result.Trades {
trades = append(trades, &gctrpc.TradeHistory{
CreationTime: result.Trades[i].Timestamp.Unix(),
Id: result.Trades[i].TID,
Price: result.Trades[i].Price,
Amount: result.Trades[i].Amount,
Exchange: result.Trades[i].Exchange,
AssetType: result.Trades[i].Type.String(),
OrderSide: result.Trades[i].Side.String(),
Fee: result.Trades[i].Fee,
Total: result.Trades[i].Total,
})
}
var creationTime, updateTime int64
if result.Date.Unix() > 0 {
creationTime = result.Date.Unix()
}
if result.LastUpdated.Unix() > 0 {
updateTime = result.LastUpdated.Unix()
}
return &gctrpc.OrderDetails{
Exchange: result.Exchange,
Id: result.ID,
BaseCurrency: result.Pair.Base.String(),
QuoteCurrency: result.Pair.Quote.String(),
AssetType: result.AssetType.String(),
OrderSide: result.Side.String(),
OrderType: result.Type.String(),
CreationTime: creationTime,
Status: result.Status.String(),
Price: result.Price,
Amount: result.Amount,
OpenVolume: result.RemainingAmount,
Fee: result.Fee,
Trades: trades,
Cost: result.Cost,
UpdateTime: updateTime,
}, err
}
// SubmitOrder submits an order specified by exchange, currency pair and asset
// type
func (s *RPCServer) SubmitOrder(_ context.Context, r *gctrpc.SubmitOrderRequest) (*gctrpc.SubmitOrderResponse, error) {
a, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
if r.Pair == nil {
return nil, errCurrencyPairUnset
}
p := currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, a, p)
if err != nil {
return nil, err
}
submission := &order.Submit{
Pair: p,
Side: order.Side(r.Side),
Type: order.Type(r.OrderType),
Amount: r.Amount,
Price: r.Price,
ClientID: r.ClientId,
Exchange: r.Exchange,
AssetType: a,
}
resp, err := s.OrderManager.Submit(submission)
if err != nil {
return &gctrpc.SubmitOrderResponse{}, err
}
var trades []*gctrpc.Trades
for i := range resp.Trades {
trades = append(trades, &gctrpc.Trades{
Amount: resp.Trades[i].Amount,
Price: resp.Trades[i].Price,
Fee: resp.Trades[i].Fee,
FeeAsset: resp.Trades[i].FeeAsset,
})
}
return &gctrpc.SubmitOrderResponse{
OrderId: resp.OrderID,
OrderPlaced: resp.IsOrderPlaced,
Trades: trades,
}, err
}
// SimulateOrder simulates an order specified by exchange, currency pair and asset
// type
func (s *RPCServer) SimulateOrder(_ context.Context, r *gctrpc.SimulateOrderRequest) (*gctrpc.SimulateOrderResponse, error) {
if r.Pair == nil {
return nil, errCurrencyPairUnset
}
p := currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
}
exch := s.GetExchangeByName(r.Exchange)
err := checkParams(r.Exchange, exch, asset.Spot, p)
if err != nil {
return nil, err
}
o, err := exch.FetchOrderbook(p, asset.Spot)
if err != nil {
return nil, err
}
var buy = true
if !strings.EqualFold(r.Side, order.Buy.String()) &&
!strings.EqualFold(r.Side, order.Bid.String()) {
buy = false
}
result := o.SimulateOrder(r.Amount, buy)
var resp gctrpc.SimulateOrderResponse
for x := range result.Orders {
resp.Orders = append(resp.Orders, &gctrpc.OrderbookItem{
Price: result.Orders[x].Price,
Amount: result.Orders[x].Amount,
})
}
resp.Amount = result.Amount
resp.MaximumPrice = result.MaximumPrice
resp.MinimumPrice = result.MinimumPrice
resp.PercentageGainLoss = result.PercentageGainOrLoss
resp.Status = result.Status
return &resp, nil
}
// WhaleBomb finds the amount required to reach a specific price target for a given exchange, pair
// and asset type
func (s *RPCServer) WhaleBomb(_ context.Context, r *gctrpc.WhaleBombRequest) (*gctrpc.SimulateOrderResponse, error) {
if r.Pair == nil {
return nil, errCurrencyPairUnset
}
p := currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
}
exch := s.GetExchangeByName(r.Exchange)
err := checkParams(r.Exchange, exch, asset.Item(""), p)
if err != nil {
return nil, err
}
o, err := exch.FetchOrderbook(p, asset.Spot)
if err != nil {
return nil, err
}
var buy = true
if !strings.EqualFold(r.Side, order.Buy.String()) &&
!strings.EqualFold(r.Side, order.Bid.String()) {
buy = false
}
result, err := o.WhaleBomb(r.PriceTarget, buy)
var resp gctrpc.SimulateOrderResponse
for x := range result.Orders {
resp.Orders = append(resp.Orders, &gctrpc.OrderbookItem{
Price: result.Orders[x].Price,
Amount: result.Orders[x].Amount,
})
}
resp.Amount = result.Amount
resp.MaximumPrice = result.MaximumPrice
resp.MinimumPrice = result.MinimumPrice
resp.PercentageGainLoss = result.PercentageGainOrLoss
resp.Status = result.Status
return &resp, err
}
// CancelOrder cancels an order specified by exchange, currency pair and asset
// type
func (s *RPCServer) CancelOrder(_ context.Context, r *gctrpc.CancelOrderRequest) (*gctrpc.GenericResponse, error) {
if r.Pair == nil {
return nil, errCurrencyPairUnset
}
p := currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
}
a, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, a, p)
if err != nil {
return nil, err
}
err = exch.CancelOrder(&order.Cancel{
AccountID: r.AccountId,
ID: r.OrderId,
Side: order.Side(r.Side),
WalletAddress: r.WalletAddress,
Pair: p,
AssetType: a,
})
if err != nil {
return nil, err
}
return &gctrpc.GenericResponse{Status: MsgStatusSuccess,
Data: fmt.Sprintf("order %s cancelled", r.OrderId)}, nil
}
// CancelBatchOrders cancels an orders specified by exchange, currency pair and asset type
func (s *RPCServer) CancelBatchOrders(_ context.Context, r *gctrpc.CancelBatchOrdersRequest) (*gctrpc.CancelBatchOrdersResponse, error) {
pair := currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
}
assetType, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, assetType, pair)
if err != nil {
return nil, err
}
status := make(map[string]string)
var request []order.Cancel
orders := strings.Split(r.OrdersId, ",")
for _, orderID := range orders {
status[orderID] = order.Cancelled.String()
request = append(request, order.Cancel{
AccountID: r.AccountId,
ID: orderID,
Side: order.Side(r.Side),
WalletAddress: r.WalletAddress,
Pair: pair,
AssetType: assetType,
})
}
_, err = exch.CancelBatchOrders(request)
if err != nil {
return nil, err
}
return &gctrpc.CancelBatchOrdersResponse{
Orders: []*gctrpc.CancelBatchOrdersResponse_Orders{{
OrderStatus: status,
}},
}, nil
}
// CancelAllOrders cancels all orders, filterable by exchange
func (s *RPCServer) CancelAllOrders(_ context.Context, r *gctrpc.CancelAllOrdersRequest) (*gctrpc.CancelAllOrdersResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return &gctrpc.CancelAllOrdersResponse{}, errExchangeNotLoaded
}
resp, err := exch.CancelAllOrders(nil)
if err != nil {
return &gctrpc.CancelAllOrdersResponse{}, err
}
return &gctrpc.CancelAllOrdersResponse{
Count: resp.Count, // count of deleted orders
}, nil
}
// GetEvents returns the stored events list
func (s *RPCServer) GetEvents(_ context.Context, r *gctrpc.GetEventsRequest) (*gctrpc.GetEventsResponse, error) {
return &gctrpc.GetEventsResponse{}, common.ErrNotYetImplemented
}
// AddEvent adds an event
func (s *RPCServer) AddEvent(_ context.Context, r *gctrpc.AddEventRequest) (*gctrpc.AddEventResponse, error) {
evtCondition := EventConditionParams{
CheckBids: r.ConditionParams.CheckBids,
CheckBidsAndAsks: r.ConditionParams.CheckBidsAndAsks,
Condition: r.ConditionParams.Condition,
OrderbookAmount: r.ConditionParams.OrderbookAmount,
Price: r.ConditionParams.Price,
}
p := currency.NewPairWithDelimiter(r.Pair.Base,
r.Pair.Quote, r.Pair.Delimiter)
a, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, a, p)
if err != nil {
return nil, err
}
id, err := Add(r.Exchange, r.Item, evtCondition, p, a, r.Action)
if err != nil {
return nil, err
}
return &gctrpc.AddEventResponse{Id: id}, nil
}
// RemoveEvent removes an event, specified by an event ID
func (s *RPCServer) RemoveEvent(_ context.Context, r *gctrpc.RemoveEventRequest) (*gctrpc.GenericResponse, error) {
if !Remove(r.Id) {
return nil, fmt.Errorf("event %d not removed", r.Id)
}
return &gctrpc.GenericResponse{Status: MsgStatusSuccess,
Data: fmt.Sprintf("event %d removed", r.Id)}, nil
}
// GetCryptocurrencyDepositAddresses returns a list of cryptocurrency deposit
// addresses specified by an exchange
func (s *RPCServer) GetCryptocurrencyDepositAddresses(_ context.Context, r *gctrpc.GetCryptocurrencyDepositAddressesRequest) (*gctrpc.GetCryptocurrencyDepositAddressesResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
result, err := s.GetCryptocurrencyDepositAddressesByExchange(r.Exchange)
return &gctrpc.GetCryptocurrencyDepositAddressesResponse{Addresses: result}, err
}
// GetCryptocurrencyDepositAddress returns a cryptocurrency deposit address
// specified by exchange and cryptocurrency
func (s *RPCServer) GetCryptocurrencyDepositAddress(_ context.Context, r *gctrpc.GetCryptocurrencyDepositAddressRequest) (*gctrpc.GetCryptocurrencyDepositAddressResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
addr, err := s.GetExchangeCryptocurrencyDepositAddress(r.Exchange, "", currency.NewCode(r.Cryptocurrency))
return &gctrpc.GetCryptocurrencyDepositAddressResponse{Address: addr}, err
}
// WithdrawCryptocurrencyFunds withdraws cryptocurrency funds specified by
// exchange
func (s *RPCServer) WithdrawCryptocurrencyFunds(_ context.Context, r *gctrpc.WithdrawCryptoRequest) (*gctrpc.WithdrawResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
request := &withdraw.Request{
Exchange: r.Exchange,
Amount: r.Amount,
Currency: currency.NewCode(strings.ToUpper(r.Currency)),
Type: withdraw.Crypto,
Description: r.Description,
Crypto: withdraw.CryptoRequest{
Address: r.Address,
AddressTag: r.AddressTag,
FeeAmount: r.Fee,
},
}
resp, err := s.Engine.SubmitWithdrawal(request)
if err != nil {
return nil, err
}
return &gctrpc.WithdrawResponse{
Id: resp.ID.String(),
Status: resp.Exchange.Status,
}, nil
}
// WithdrawFiatFunds withdraws fiat funds specified by exchange
func (s *RPCServer) WithdrawFiatFunds(_ context.Context, r *gctrpc.WithdrawFiatRequest) (*gctrpc.WithdrawResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
var bankAccount *banking.Account
bankAccount, err := banking.GetBankAccountByID(r.BankAccountId)
if err != nil {
base := exch.GetBase()
if base == nil {
return nil, errExchangeBaseNotFound
}
bankAccount, err = base.GetExchangeBankAccounts(r.BankAccountId, r.Currency)
if err != nil {
return nil, err
}
}
request := &withdraw.Request{
Exchange: r.Exchange,
Amount: r.Amount,
Currency: currency.NewCode(strings.ToUpper(r.Currency)),
Type: withdraw.Fiat,
Description: r.Description,
Fiat: withdraw.FiatRequest{
Bank: *bankAccount,
},
}
resp, err := s.Engine.SubmitWithdrawal(request)
if err != nil {
return nil, err
}
return &gctrpc.WithdrawResponse{
Id: resp.ID.String(),
Status: resp.Exchange.Status,
}, nil
}
// WithdrawalEventByID returns previous withdrawal request details
func (s *RPCServer) WithdrawalEventByID(_ context.Context, r *gctrpc.WithdrawalEventByIDRequest) (*gctrpc.WithdrawalEventByIDResponse, error) {
if !s.Config.Database.Enabled {
return nil, database.ErrDatabaseSupportDisabled
}
v, err := WithdrawalEventByID(r.Id)
if err != nil {
return nil, err
}
resp := &gctrpc.WithdrawalEventByIDResponse{
Event: &gctrpc.WithdrawalEventResponse{
Id: v.ID.String(),
Exchange: &gctrpc.WithdrawlExchangeEvent{
Name: v.Exchange.Name,
Id: v.Exchange.Name,
Status: v.Exchange.Status,
},
Request: &gctrpc.WithdrawalRequestEvent{
Currency: v.RequestDetails.Currency.String(),
Description: v.RequestDetails.Description,
Amount: v.RequestDetails.Amount,
Type: int32(v.RequestDetails.Type),
},
},
}
createdAtPtype, err := ptypes.TimestampProto(v.CreatedAt)
if err != nil {
log.Errorf(log.Global, "failed to convert time: %v", err)
}
resp.Event.CreatedAt = createdAtPtype
updatedAtPtype, err := ptypes.TimestampProto(v.UpdatedAt)
if err != nil {
log.Errorf(log.Global, "failed to convert time: %v", err)
}
resp.Event.UpdatedAt = updatedAtPtype
if v.RequestDetails.Type == withdraw.Crypto {
resp.Event.Request.Crypto = new(gctrpc.CryptoWithdrawalEvent)
resp.Event.Request.Crypto = &gctrpc.CryptoWithdrawalEvent{
Address: v.RequestDetails.Crypto.Address,
AddressTag: v.RequestDetails.Crypto.AddressTag,
Fee: v.RequestDetails.Crypto.FeeAmount,
}
} else if v.RequestDetails.Type == withdraw.Fiat {
if v.RequestDetails.Fiat != (withdraw.FiatRequest{}) {
resp.Event.Request.Fiat = new(gctrpc.FiatWithdrawalEvent)
resp.Event.Request.Fiat = &gctrpc.FiatWithdrawalEvent{
BankName: v.RequestDetails.Fiat.Bank.BankName,
AccountName: v.RequestDetails.Fiat.Bank.AccountName,
AccountNumber: v.RequestDetails.Fiat.Bank.AccountNumber,
Bsb: v.RequestDetails.Fiat.Bank.BSBNumber,
Swift: v.RequestDetails.Fiat.Bank.SWIFTCode,
Iban: v.RequestDetails.Fiat.Bank.IBAN,
}
}
}
return resp, nil
}
// WithdrawalEventsByExchange returns previous withdrawal request details by exchange
func (s *RPCServer) WithdrawalEventsByExchange(_ context.Context, r *gctrpc.WithdrawalEventsByExchangeRequest) (*gctrpc.WithdrawalEventsByExchangeResponse, error) {
if !s.Config.Database.Enabled {
if r.Id == "" {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
c := currency.NewCode(strings.ToUpper(r.Currency))
ret, err := exch.GetWithdrawalsHistory(c)
if err != nil {
return nil, err
}
return parseWithdrawalsHistory(ret, exch.GetName(), int(r.Limit)), nil
}
return nil, database.ErrDatabaseSupportDisabled
}
if r.Id == "" {
ret, err := WithdrawalEventByExchange(r.Exchange, int(r.Limit))
if err != nil {
return nil, err
}
return parseMultipleEvents(ret), nil
}
ret, err := WithdrawalEventByExchangeID(r.Exchange, r.Id)
if err != nil {
return nil, err
}
return parseSingleEvents(ret), nil
}
// WithdrawalEventsByDate returns previous withdrawal request details by exchange
func (s *RPCServer) WithdrawalEventsByDate(_ context.Context, r *gctrpc.WithdrawalEventsByDateRequest) (*gctrpc.WithdrawalEventsByExchangeResponse, error) {
UTCStartTime, err := time.Parse(common.SimpleTimeFormat, r.Start)
if err != nil {
return nil, err
}
var UTCEndTime time.Time
UTCEndTime, err = time.Parse(common.SimpleTimeFormat, r.End)
if err != nil {
return nil, err
}
var ret []*withdraw.Response
ret, err = WithdrawEventByDate(r.Exchange, UTCStartTime, UTCEndTime, int(r.Limit))
if err != nil {
return nil, err
}
return parseMultipleEvents(ret), nil
}
// GetLoggerDetails returns a loggers details
func (s *RPCServer) GetLoggerDetails(_ context.Context, r *gctrpc.GetLoggerDetailsRequest) (*gctrpc.GetLoggerDetailsResponse, error) {
levels, err := log.Level(r.Logger)
if err != nil {
return nil, err
}
return &gctrpc.GetLoggerDetailsResponse{
Info: levels.Info,
Debug: levels.Debug,
Warn: levels.Warn,
Error: levels.Error,
}, nil
}
// SetLoggerDetails sets a loggers details
func (s *RPCServer) SetLoggerDetails(_ context.Context, r *gctrpc.SetLoggerDetailsRequest) (*gctrpc.GetLoggerDetailsResponse, error) {
levels, err := log.SetLevel(r.Logger, r.Level)
if err != nil {
return nil, err
}
return &gctrpc.GetLoggerDetailsResponse{
Info: levels.Info,
Debug: levels.Debug,
Warn: levels.Warn,
Error: levels.Error,
}, nil
}
// GetExchangePairs returns a list of exchange supported assets and related pairs
func (s *RPCServer) GetExchangePairs(_ context.Context, r *gctrpc.GetExchangePairsRequest) (*gctrpc.GetExchangePairsResponse, error) {
exchCfg, err := s.Config.GetExchangeConfig(r.Exchange)
if err != nil {
return nil, err
}
assetTypes := exchCfg.CurrencyPairs.GetAssetTypes()
var a asset.Item
if r.Asset != "" {
a, err = asset.New(r.Asset)
if err != nil {
return nil, err
}
if !assetTypes.Contains(a) {
return nil, fmt.Errorf("specified asset %s is not supported by exchange", a)
}
}
var resp gctrpc.GetExchangePairsResponse
resp.SupportedAssets = make(map[string]*gctrpc.PairsSupported)
for x := range assetTypes {
if r.Asset != "" && !strings.EqualFold(assetTypes[x].String(), r.Asset) {
continue
}
ps, err := exchCfg.CurrencyPairs.Get(assetTypes[x])
if err != nil {
return nil, err
}
resp.SupportedAssets[assetTypes[x].String()] = &gctrpc.PairsSupported{
AvailablePairs: ps.Available.Join(),
EnabledPairs: ps.Enabled.Join(),
}
}
return &resp, nil
}
// SetExchangePair enables/disabled the specified pair(s) on an exchange
func (s *RPCServer) SetExchangePair(_ context.Context, r *gctrpc.SetExchangePairRequest) (*gctrpc.GenericResponse, error) {
exchCfg, err := s.Config.GetExchangeConfig(r.Exchange)
if err != nil {
return nil, err
}
a, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, a, currency.Pair{})
if err != nil {
return nil, err
}
base := exch.GetBase()
if base == nil {
return nil, errExchangeBaseNotFound
}
pairFmt, err := s.Config.GetPairFormat(r.Exchange, a)
if err != nil {
return nil, err
}
var pass bool
var newErrors common.Errors
for i := range r.Pairs {
var p currency.Pair
p, err = currency.NewPairFromStrings(r.Pairs[i].Base, r.Pairs[i].Quote)
if err != nil {
return nil, err
}
if r.Enable {
err = exchCfg.CurrencyPairs.EnablePair(a,
p.Format(pairFmt.Delimiter, pairFmt.Uppercase))
if err != nil {
newErrors = append(newErrors, err)
continue
}
err = base.CurrencyPairs.EnablePair(a, p)
if err != nil {
newErrors = append(newErrors, err)
continue
}
pass = true
continue
}
err = exchCfg.CurrencyPairs.DisablePair(a,
p.Format(pairFmt.Delimiter, pairFmt.Uppercase))
if err != nil {
newErrors = append(newErrors, err)
continue
}
err = base.CurrencyPairs.DisablePair(a, p)
if err != nil {
newErrors = append(newErrors, err)
continue
}
pass = true
}
if exch.IsWebsocketEnabled() && pass && base.Websocket.IsConnected() {
err = exch.FlushWebsocketChannels()
if err != nil {
newErrors = append(newErrors, err)
}
}
if newErrors != nil {
return nil, newErrors
}
return &gctrpc.GenericResponse{Status: MsgStatusSuccess}, nil
}
// GetOrderbookStream streams the requested updated orderbook
func (s *RPCServer) GetOrderbookStream(r *gctrpc.GetOrderbookStreamRequest, stream gctrpc.GoCryptoTrader_GetOrderbookStreamServer) error {
a, err := asset.New(r.AssetType)
if err != nil {
return err
}
p := currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, a, p)
if err != nil {
return err
}
depth, err := orderbook.GetDepth(r.Exchange, p, a)
if err != nil {
return err
}
for {
base := depth.Retrieve()
bids := make([]*gctrpc.OrderbookItem, len(base.Bids))
for i := range base.Bids {
bids[i] = &gctrpc.OrderbookItem{
Amount: base.Bids[i].Amount,
Price: base.Bids[i].Price,
Id: base.Bids[i].ID}
}
asks := make([]*gctrpc.OrderbookItem, len(base.Asks))
for i := range base.Asks {
asks[i] = &gctrpc.OrderbookItem{
Amount: base.Asks[i].Amount,
Price: base.Asks[i].Price,
Id: base.Asks[i].ID}
}
err := stream.Send(&gctrpc.OrderbookResponse{
Pair: &gctrpc.CurrencyPair{Base: r.Pair.Base, Quote: r.Pair.Quote},
Bids: bids,
Asks: asks,
AssetType: r.AssetType,
})
if err != nil {
return err
}
<-depth.Wait(nil)
}
}
// GetExchangeOrderbookStream streams all orderbooks associated with an exchange
func (s *RPCServer) GetExchangeOrderbookStream(r *gctrpc.GetExchangeOrderbookStreamRequest, stream gctrpc.GoCryptoTrader_GetExchangeOrderbookStreamServer) error {
if r.Exchange == "" {
return errExchangeNameUnset
}
pipe, err := orderbook.SubscribeToExchangeOrderbooks(r.Exchange)
if err != nil {
return err
}
defer pipe.Release()
for {
data, ok := <-pipe.C
if !ok {
return errDispatchSystem
}
ob := (*data.(*interface{})).(orderbook.Base)
bids := make([]*gctrpc.OrderbookItem, len(ob.Bids))
for i := range ob.Bids {
bids[i] = &gctrpc.OrderbookItem{
Amount: ob.Bids[i].Amount,
Price: ob.Bids[i].Price,
Id: ob.Bids[i].ID}
}
asks := make([]*gctrpc.OrderbookItem, len(ob.Asks))
for i := range ob.Asks {
asks[i] = &gctrpc.OrderbookItem{
Amount: ob.Asks[i].Amount,
Price: ob.Asks[i].Price,
Id: ob.Asks[i].ID}
}
err := stream.Send(&gctrpc.OrderbookResponse{
Pair: &gctrpc.CurrencyPair{Base: ob.Pair.Base.String(),
Quote: ob.Pair.Quote.String()},
Bids: bids,
Asks: asks,
AssetType: ob.Asset.String(),
})
if err != nil {
return err
}
}
}
// GetTickerStream streams the requested updated ticker
func (s *RPCServer) GetTickerStream(r *gctrpc.GetTickerStreamRequest, stream gctrpc.GoCryptoTrader_GetTickerStreamServer) error {
if r.Exchange == "" {
return errExchangeNameUnset
}
a, err := asset.New(r.AssetType)
if err != nil {
return err
}
if r.Pair.String() == "" {
return errCurrencyPairUnset
}
if r.AssetType == "" {
return errAssetTypeUnset
}
p, err := currency.NewPairFromStrings(r.Pair.Base, r.Pair.Quote)
if err != nil {
return err
}
pipe, err := ticker.SubscribeTicker(r.Exchange, p, a)
if err != nil {
return err
}
defer pipe.Release()
for {
data, ok := <-pipe.C
if !ok {
return errDispatchSystem
}
t := (*data.(*interface{})).(ticker.Price)
err := stream.Send(&gctrpc.TickerResponse{
Pair: &gctrpc.CurrencyPair{
Base: t.Pair.Base.String(),
Quote: t.Pair.Quote.String(),
Delimiter: t.Pair.Delimiter},
LastUpdated: t.LastUpdated.Unix(),
Last: t.Last,
High: t.High,
Low: t.Low,
Bid: t.Bid,
Ask: t.Ask,
Volume: t.Volume,
PriceAth: t.PriceATH,
})
if err != nil {
return err
}
}
}
// GetExchangeTickerStream streams all tickers associated with an exchange
func (s *RPCServer) GetExchangeTickerStream(r *gctrpc.GetExchangeTickerStreamRequest, stream gctrpc.GoCryptoTrader_GetExchangeTickerStreamServer) error {
if r.Exchange == "" {
return errExchangeNameUnset
}
pipe, err := ticker.SubscribeToExchangeTickers(r.Exchange)
if err != nil {
return err
}
defer pipe.Release()
for {
data, ok := <-pipe.C
if !ok {
return errDispatchSystem
}
t := (*data.(*interface{})).(ticker.Price)
err := stream.Send(&gctrpc.TickerResponse{
Pair: &gctrpc.CurrencyPair{
Base: t.Pair.Base.String(),
Quote: t.Pair.Quote.String(),
Delimiter: t.Pair.Delimiter},
LastUpdated: t.LastUpdated.Unix(),
Last: t.Last,
High: t.High,
Low: t.Low,
Bid: t.Bid,
Ask: t.Ask,
Volume: t.Volume,
PriceAth: t.PriceATH,
})
if err != nil {
return err
}
}
}
// GetAuditEvent returns matching audit events from database
func (s *RPCServer) GetAuditEvent(_ context.Context, r *gctrpc.GetAuditEventRequest) (*gctrpc.GetAuditEventResponse, error) {
UTCStartTime, err := time.Parse(common.SimpleTimeFormat, r.StartDate)
if err != nil {
return nil, err
}
UTCEndTime, err := time.Parse(common.SimpleTimeFormat, r.EndDate)
if err != nil {
return nil, err
}
events, err := audit.GetEvent(UTCStartTime, UTCEndTime, r.OrderBy, int(r.Limit))
if err != nil {
return nil, err
}
resp := gctrpc.GetAuditEventResponse{}
switch v := events.(type) {
case postgres.AuditEventSlice:
for x := range v {
tempEvent := &gctrpc.AuditEvent{
Type: v[x].Type,
Identifier: v[x].Identifier,
Message: v[x].Message,
Timestamp: v[x].CreatedAt.In(time.UTC).Format(common.SimpleTimeFormatWithTimezone),
}
resp.Events = append(resp.Events, tempEvent)
}
case sqlite3.AuditEventSlice:
for x := range v {
tempEvent := &gctrpc.AuditEvent{
Type: v[x].Type,
Identifier: v[x].Identifier,
Message: v[x].Message,
Timestamp: v[x].CreatedAt,
}
resp.Events = append(resp.Events, tempEvent)
}
}
return &resp, nil
}
// GetHistoricCandles returns historical candles for a given exchange
func (s *RPCServer) GetHistoricCandles(_ context.Context, r *gctrpc.GetHistoricCandlesRequest) (*gctrpc.GetHistoricCandlesResponse, error) {
UTCStartTime, err := time.Parse(common.SimpleTimeFormat, r.Start)
if err != nil {
return nil, err
}
var UTCEndTime time.Time
UTCEndTime, err = time.Parse(common.SimpleTimeFormat, r.End)
if err != nil {
return nil, err
}
if UTCStartTime.After(UTCEndTime) || UTCStartTime.Equal(UTCEndTime) {
return nil, errInvalidTimes
}
if r.Pair == nil {
return nil, errCurrencyPairUnset
}
pair := currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
}
a, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, a, pair)
if err != nil {
return nil, err
}
interval := kline.Interval(r.TimeInterval)
resp := gctrpc.GetHistoricCandlesResponse{
Interval: interval.Short(),
Pair: r.Pair,
Start: r.Start,
End: r.End,
}
var klineItem kline.Item
if r.UseDb {
klineItem, err = kline.LoadFromDatabase(r.Exchange,
pair,
a,
interval,
UTCStartTime,
UTCEndTime)
if err != nil {
return nil, err
}
} else {
if r.ExRequest {
klineItem, err = exch.GetHistoricCandlesExtended(pair,
a,
UTCStartTime,
UTCEndTime,
interval)
} else {
klineItem, err = exch.GetHistoricCandles(pair,
a,
UTCStartTime,
UTCEndTime,
interval)
}
}
if err != nil {
return nil, err
}
if r.FillMissingWithTrades {
var tradeDataKline *kline.Item
tradeDataKline, err = fillMissingCandlesWithStoredTrades(UTCStartTime, UTCEndTime, &klineItem)
if err != nil {
return nil, err
}
klineItem.Candles = append(klineItem.Candles, tradeDataKline.Candles...)
}
resp.Exchange = klineItem.Exchange
for i := range klineItem.Candles {
resp.Candle = append(resp.Candle, &gctrpc.Candle{
Time: klineItem.Candles[i].Time.In(time.UTC).Format(common.SimpleTimeFormatWithTimezone),
Low: klineItem.Candles[i].Low,
High: klineItem.Candles[i].High,
Open: klineItem.Candles[i].Open,
Close: klineItem.Candles[i].Close,
Volume: klineItem.Candles[i].Volume,
})
}
if r.Sync && !r.UseDb {
_, err = kline.StoreInDatabase(&klineItem, r.Force)
if err != nil {
if errors.Is(err, exchangeDB.ErrNoExchangeFound) {
return nil, errors.New("exchange was not found in database, you can seed existing data or insert a new exchange via the dbseed")
}
return nil, err
}
}
return &resp, nil
}
func fillMissingCandlesWithStoredTrades(startTime, endTime time.Time, klineItem *kline.Item) (*kline.Item, error) {
var response kline.Item
var candleTimes []time.Time
for i := range klineItem.Candles {
candleTimes = append(candleTimes, klineItem.Candles[i].Time)
}
ranges, err := timeperiods.FindTimeRangesContainingData(startTime, endTime, klineItem.Interval.Duration(), candleTimes)
if err != nil {
return nil, err
}
for i := range ranges {
if ranges[i].HasDataInRange {
continue
}
var tradeCandles kline.Item
trades, err := trade.GetTradesInRange(
klineItem.Exchange,
klineItem.Asset.String(),
klineItem.Pair.Base.String(),
klineItem.Pair.Quote.String(),
ranges[i].StartOfRange,
ranges[i].EndOfRange,
)
if err != nil {
return klineItem, err
}
if len(trades) == 0 {
continue
}
tradeCandles, err = trade.ConvertTradesToCandles(klineItem.Interval, trades...)
if err != nil {
return klineItem, err
}
if len(tradeCandles.Candles) == 0 {
continue
}
for i := range tradeCandles.Candles {
response.Candles = append(response.Candles, tradeCandles.Candles[i])
}
for i := range response.Candles {
log.Infof(log.GRPCSys,
"Filled requested OHLCV data for %v %v %v interval at %v with trade data",
klineItem.Exchange,
klineItem.Pair.String(),
klineItem.Asset,
response.Candles[i].Time.In(time.UTC).Format(common.SimpleTimeFormatWithTimezone),
)
}
}
return &response, nil
}
// GCTScriptStatus returns a slice of current running scripts that includes next run time and uuid
func (s *RPCServer) GCTScriptStatus(_ context.Context, r *gctrpc.GCTScriptStatusRequest) (*gctrpc.GCTScriptStatusResponse, error) {
if !s.GctScriptManager.Started() {
return &gctrpc.GCTScriptStatusResponse{Status: gctscript.ErrScriptingDisabled.Error()}, nil
}
if gctscript.VMSCount.Len() < 1 {
return &gctrpc.GCTScriptStatusResponse{Status: "no scripts running"}, nil
}
resp := &gctrpc.GCTScriptStatusResponse{
Status: fmt.Sprintf("%v of %v virtual machines running", gctscript.VMSCount.Len(), s.GctScriptManager.GetMaxVirtualMachines()),
}
gctscript.AllVMSync.Range(func(k, v interface{}) bool {
vm := v.(*gctscript.VM)
resp.Scripts = append(resp.Scripts, &gctrpc.GCTScript{
UUID: vm.ID.String(),
Name: vm.ShortName(),
NextRun: vm.NextRun.String(),
})
return true
})
return resp, nil
}
// GCTScriptQuery queries a running script and returns script running information
func (s *RPCServer) GCTScriptQuery(_ context.Context, r *gctrpc.GCTScriptQueryRequest) (*gctrpc.GCTScriptQueryResponse, error) {
if !s.GctScriptManager.Started() {
return &gctrpc.GCTScriptQueryResponse{Status: gctscript.ErrScriptingDisabled.Error()}, nil
}
UUID, err := uuid.FromString(r.Script.UUID)
if err != nil {
return &gctrpc.GCTScriptQueryResponse{Status: MsgStatusError, Data: err.Error()}, nil
}
if v, f := gctscript.AllVMSync.Load(UUID); f {
resp := &gctrpc.GCTScriptQueryResponse{
Status: MsgStatusOK,
Script: &gctrpc.GCTScript{
Name: v.(*gctscript.VM).ShortName(),
UUID: v.(*gctscript.VM).ID.String(),
Path: v.(*gctscript.VM).Path,
NextRun: v.(*gctscript.VM).NextRun.String(),
},
}
data, err := v.(*gctscript.VM).Read()
if err != nil {
return nil, err
}
resp.Data = string(data)
return resp, nil
}
return &gctrpc.GCTScriptQueryResponse{Status: MsgStatusError, Data: "UUID not found"}, nil
}
// GCTScriptExecute execute a script
func (s *RPCServer) GCTScriptExecute(_ context.Context, r *gctrpc.GCTScriptExecuteRequest) (*gctrpc.GenericResponse, error) {
if !s.GctScriptManager.Started() {
return &gctrpc.GenericResponse{Status: gctscript.ErrScriptingDisabled.Error()}, nil
}
if r.Script.Path == "" {
r.Script.Path = gctscript.ScriptPath
}
gctVM := s.GctScriptManager.New()
if gctVM == nil {
return &gctrpc.GenericResponse{Status: MsgStatusError, Data: "unable to create VM instance"}, nil
}
script := filepath.Join(r.Script.Path, r.Script.Name)
err := gctVM.Load(script)
if err != nil {
return &gctrpc.GenericResponse{
Status: MsgStatusError,
Data: err.Error(),
}, nil
}
go gctVM.CompileAndRun()
return &gctrpc.GenericResponse{
Status: MsgStatusOK,
Data: gctVM.ShortName() + " (" + gctVM.ID.String() + ") executed",
}, nil
}
// GCTScriptStop terminate a running script
func (s *RPCServer) GCTScriptStop(_ context.Context, r *gctrpc.GCTScriptStopRequest) (*gctrpc.GenericResponse, error) {
if !s.GctScriptManager.Started() {
return &gctrpc.GenericResponse{Status: gctscript.ErrScriptingDisabled.Error()}, nil
}
UUID, err := uuid.FromString(r.Script.UUID)
if err != nil {
return &gctrpc.GenericResponse{Status: MsgStatusError, Data: err.Error()}, nil
}
if v, f := gctscript.AllVMSync.Load(UUID); f {
err = v.(*gctscript.VM).Shutdown()
status := " terminated"
if err != nil {
status = " " + err.Error()
}
return &gctrpc.GenericResponse{Status: MsgStatusOK, Data: v.(*gctscript.VM).ID.String() + status}, nil
}
return &gctrpc.GenericResponse{Status: MsgStatusError, Data: "no running script found"}, nil
}
// GCTScriptUpload upload a new script to ScriptPath
func (s *RPCServer) GCTScriptUpload(_ context.Context, r *gctrpc.GCTScriptUploadRequest) (*gctrpc.GenericResponse, error) {
if !s.GctScriptManager.Started() {
return &gctrpc.GenericResponse{Status: gctscript.ErrScriptingDisabled.Error()}, nil
}
fPath := filepath.Join(gctscript.ScriptPath, r.ScriptName)
var fPathExits = fPath
if filepath.Ext(fPath) == ".zip" {
fPathExits = fPathExits[0 : len(fPathExits)-4]
}
if s, err := os.Stat(fPathExits); !os.IsNotExist(err) {
if !r.Overwrite {
return nil, fmt.Errorf("%s script found and overwrite set to false", r.ScriptName)
}
f := filepath.Join(gctscript.ScriptPath, "version_history")
err = os.MkdirAll(f, 0770)
if err != nil {
return nil, err
}
timeString := strconv.FormatInt(time.Now().UnixNano(), 10)
renamedFile := filepath.Join(f, timeString+"-"+filepath.Base(fPathExits))
if s.IsDir() {
err = archive.Zip(fPathExits, renamedFile+".zip")
if err != nil {
return nil, err
}
} else {
err = file.Move(fPathExits, renamedFile)
if err != nil {
return nil, err
}
}
}
newFile, err := os.Create(fPath)
if err != nil {
return nil, err
}
_, err = newFile.Write(r.Data)
if err != nil {
return nil, err
}
err = newFile.Close()
if err != nil {
log.Errorln(log.Global, "Failed to close file handle, archive removal may fail")
}
if r.Archived {
files, errExtract := archive.UnZip(fPath, filepath.Join(gctscript.ScriptPath, r.ScriptName[:len(r.ScriptName)-4]))
if errExtract != nil {
log.Errorf(log.Global, "Failed to archive zip file %v", errExtract)
return &gctrpc.GenericResponse{Status: MsgStatusError, Data: errExtract.Error()}, nil
}
var failedFiles []string
for x := range files {
err = s.GctScriptManager.Validate(files[x])
if err != nil {
failedFiles = append(failedFiles, files[x])
}
}
err = os.Remove(fPath)
if err != nil {
return nil, err
}
if len(failedFiles) > 0 {
err = os.RemoveAll(filepath.Join(gctscript.ScriptPath, r.ScriptName[:len(r.ScriptName)-4]))
if err != nil {
log.Errorf(log.GCTScriptMgr, "Failed to remove file %v (%v), manual deletion required", filepath.Base(fPath), err)
}
return &gctrpc.GenericResponse{Status: gctscript.ErrScriptFailedValidation, Data: strings.Join(failedFiles, ", ")}, nil
}
} else {
err = s.GctScriptManager.Validate(fPath)
if err != nil {
errRemove := os.Remove(fPath)
if errRemove != nil {
log.Errorf(log.GCTScriptMgr, "Failed to remove file %v, manual deletion required: %v", filepath.Base(fPath), errRemove)
}
return &gctrpc.GenericResponse{Status: gctscript.ErrScriptFailedValidation, Data: err.Error()}, nil
}
}
return &gctrpc.GenericResponse{
Status: MsgStatusOK,
Data: fmt.Sprintf("script %s written", newFile.Name()),
}, nil
}
// GCTScriptReadScript read a script and return contents
func (s *RPCServer) GCTScriptReadScript(_ context.Context, r *gctrpc.GCTScriptReadScriptRequest) (*gctrpc.GCTScriptQueryResponse, error) {
if !s.GctScriptManager.Started() {
return &gctrpc.GCTScriptQueryResponse{Status: gctscript.ErrScriptingDisabled.Error()}, nil
}
filename := filepath.Join(gctscript.ScriptPath, r.Script.Name)
if !strings.HasPrefix(filename, filepath.Clean(gctscript.ScriptPath)+string(os.PathSeparator)) {
return nil, fmt.Errorf("%s: invalid file path", filename)
}
data, err := ioutil.ReadFile(filename)
if err != nil {
return nil, err
}
return &gctrpc.GCTScriptQueryResponse{
Status: MsgStatusOK,
Script: &gctrpc.GCTScript{
Name: filepath.Base(filename),
Path: filepath.Dir(filename),
},
Data: string(data),
}, nil
}
// GCTScriptListAll lists all scripts inside the default script path
func (s *RPCServer) GCTScriptListAll(context.Context, *gctrpc.GCTScriptListAllRequest) (*gctrpc.GCTScriptStatusResponse, error) {
if !s.GctScriptManager.Started() {
return &gctrpc.GCTScriptStatusResponse{Status: gctscript.ErrScriptingDisabled.Error()}, nil
}
resp := &gctrpc.GCTScriptStatusResponse{}
err := filepath.Walk(gctscript.ScriptPath,
func(path string, info os.FileInfo, err error) error {
if err != nil {
return err
}
if filepath.Ext(path) == common.GctExt {
resp.Scripts = append(resp.Scripts, &gctrpc.GCTScript{
Name: path,
})
}
return nil
})
if err != nil {
return nil, err
}
return resp, nil
}
// GCTScriptStopAll stops all running scripts
func (s *RPCServer) GCTScriptStopAll(context.Context, *gctrpc.GCTScriptStopAllRequest) (*gctrpc.GenericResponse, error) {
if !s.GctScriptManager.Started() {
return &gctrpc.GenericResponse{Status: gctscript.ErrScriptingDisabled.Error()}, nil
}
err := s.GctScriptManager.ShutdownAll()
if err != nil {
return &gctrpc.GenericResponse{Status: "error", Data: err.Error()}, nil
}
return &gctrpc.GenericResponse{
Status: MsgStatusOK,
Data: "all running scripts have been stopped",
}, nil
}
// GCTScriptAutoLoadToggle adds or removes an entry to the autoload list
func (s *RPCServer) GCTScriptAutoLoadToggle(_ context.Context, r *gctrpc.GCTScriptAutoLoadRequest) (*gctrpc.GenericResponse, error) {
if !s.GctScriptManager.Started() {
return &gctrpc.GenericResponse{Status: gctscript.ErrScriptingDisabled.Error()}, nil
}
if r.Status {
err := s.GctScriptManager.Autoload(r.Script, true)
if err != nil {
return &gctrpc.GenericResponse{Status: "error", Data: err.Error()}, nil
}
return &gctrpc.GenericResponse{Status: "success", Data: "script " + r.Script + " removed from autoload list"}, nil
}
err := s.GctScriptManager.Autoload(r.Script, false)
if err != nil {
return &gctrpc.GenericResponse{Status: "error", Data: err.Error()}, nil
}
return &gctrpc.GenericResponse{Status: "success", Data: "script " + r.Script + " added to autoload list"}, nil
}
// SetExchangeAsset enables or disables an exchanges asset type
func (s *RPCServer) SetExchangeAsset(_ context.Context, r *gctrpc.SetExchangeAssetRequest) (*gctrpc.GenericResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
exchCfg, err := s.Config.GetExchangeConfig(r.Exchange)
if err != nil {
return nil, err
}
base := exch.GetBase()
if base == nil {
return nil, errExchangeBaseNotFound
}
if r.Asset == "" {
return nil, errors.New("asset type must be specified")
}
a, err := asset.New(r.Asset)
if err != nil {
return nil, err
}
err = base.CurrencyPairs.SetAssetEnabled(a, r.Enable)
if err != nil {
return nil, err
}
err = exchCfg.CurrencyPairs.SetAssetEnabled(a, r.Enable)
if err != nil {
return nil, err
}
return &gctrpc.GenericResponse{Status: MsgStatusSuccess}, nil
}
// SetAllExchangePairs enables or disables an exchanges pairs
func (s *RPCServer) SetAllExchangePairs(_ context.Context, r *gctrpc.SetExchangeAllPairsRequest) (*gctrpc.GenericResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
exchCfg, err := s.Config.GetExchangeConfig(r.Exchange)
if err != nil {
return nil, err
}
base := exch.GetBase()
if base == nil {
return nil, errExchangeBaseNotFound
}
assets := base.CurrencyPairs.GetAssetTypes()
if r.Enable {
for i := range assets {
var pairs currency.Pairs
pairs, err = base.CurrencyPairs.GetPairs(assets[i], false)
if err != nil {
return nil, err
}
exchCfg.CurrencyPairs.StorePairs(assets[i], pairs, true)
base.CurrencyPairs.StorePairs(assets[i], pairs, true)
}
} else {
for i := range assets {
exchCfg.CurrencyPairs.StorePairs(assets[i], nil, true)
base.CurrencyPairs.StorePairs(assets[i], nil, true)
}
}
if exch.IsWebsocketEnabled() && base.Websocket.IsConnected() {
err = exch.FlushWebsocketChannels()
if err != nil {
return nil, err
}
}
return &gctrpc.GenericResponse{Status: MsgStatusSuccess}, nil
}
// UpdateExchangeSupportedPairs forces an update of the supported pairs which
// will update the available pairs list and remove any assets that are disabled
// by the exchange
func (s *RPCServer) UpdateExchangeSupportedPairs(_ context.Context, r *gctrpc.UpdateExchangeSupportedPairsRequest) (*gctrpc.GenericResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
base := exch.GetBase()
if base == nil {
return nil, errExchangeBaseNotFound
}
if !base.GetEnabledFeatures().AutoPairUpdates {
return nil,
errors.New("cannot auto pair update for exchange, a manual update is needed")
}
err := exch.UpdateTradablePairs(false)
if err != nil {
return nil, err
}
if exch.IsWebsocketEnabled() {
err = exch.FlushWebsocketChannels()
if err != nil {
return nil, err
}
}
return &gctrpc.GenericResponse{Status: MsgStatusSuccess}, nil
}
// GetExchangeAssets returns the supported asset types
func (s *RPCServer) GetExchangeAssets(_ context.Context, r *gctrpc.GetExchangeAssetsRequest) (*gctrpc.GetExchangeAssetsResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
return &gctrpc.GetExchangeAssetsResponse{
Assets: exch.GetAssetTypes().JoinToString(","),
}, nil
}
// WebsocketGetInfo returns websocket connection information
func (s *RPCServer) WebsocketGetInfo(_ context.Context, r *gctrpc.WebsocketGetInfoRequest) (*gctrpc.WebsocketGetInfoResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
w, err := exch.GetWebsocket()
if err != nil {
return nil, err
}
return &gctrpc.WebsocketGetInfoResponse{
Exchange: exch.GetName(),
Supported: exch.SupportsWebsocket(),
Enabled: exch.IsWebsocketEnabled(),
Authenticated: w.CanUseAuthenticatedEndpoints(),
RunningUrl: w.GetWebsocketURL(),
ProxyAddress: w.GetProxyAddress(),
}, nil
}
// WebsocketSetEnabled enables or disables the websocket client
func (s *RPCServer) WebsocketSetEnabled(_ context.Context, r *gctrpc.WebsocketSetEnabledRequest) (*gctrpc.GenericResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
w, err := exch.GetWebsocket()
if err != nil {
return nil, fmt.Errorf("websocket not supported for exchange %s", r.Exchange)
}
exchCfg, err := s.Config.GetExchangeConfig(r.Exchange)
if err != nil {
return nil, err
}
if r.Enable {
err = w.Enable()
if err != nil {
return nil, err
}
exchCfg.Features.Enabled.Websocket = true
return &gctrpc.GenericResponse{Status: MsgStatusSuccess, Data: "websocket enabled"}, nil
}
err = w.Disable()
if err != nil {
return nil, err
}
exchCfg.Features.Enabled.Websocket = false
return &gctrpc.GenericResponse{Status: MsgStatusSuccess, Data: "websocket disabled"}, nil
}
// WebsocketGetSubscriptions returns websocket subscription analysis
func (s *RPCServer) WebsocketGetSubscriptions(_ context.Context, r *gctrpc.WebsocketGetSubscriptionsRequest) (*gctrpc.WebsocketGetSubscriptionsResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
w, err := exch.GetWebsocket()
if err != nil {
return nil, fmt.Errorf("websocket not supported for exchange %s", r.Exchange)
}
payload := new(gctrpc.WebsocketGetSubscriptionsResponse)
payload.Exchange = exch.GetName()
subs := w.GetSubscriptions()
for i := range subs {
params, err := json.Marshal(subs[i].Params)
if err != nil {
return nil, err
}
payload.Subscriptions = append(payload.Subscriptions,
&gctrpc.WebsocketSubscription{
Channel: subs[i].Channel,
Currency: subs[i].Currency.String(),
Asset: subs[i].Asset.String(),
Params: string(params),
})
}
return payload, nil
}
// WebsocketSetProxy sets client websocket connection proxy
func (s *RPCServer) WebsocketSetProxy(_ context.Context, r *gctrpc.WebsocketSetProxyRequest) (*gctrpc.GenericResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
w, err := exch.GetWebsocket()
if err != nil {
return nil, fmt.Errorf("websocket not supported for exchange %s", r.Exchange)
}
err = w.SetProxyAddress(r.Proxy)
if err != nil {
return nil, err
}
return &gctrpc.GenericResponse{Status: MsgStatusSuccess,
Data: fmt.Sprintf("new proxy has been set [%s] for %s websocket connection",
r.Exchange,
r.Proxy)}, nil
}
// WebsocketSetURL sets exchange websocket client connection URL
func (s *RPCServer) WebsocketSetURL(_ context.Context, r *gctrpc.WebsocketSetURLRequest) (*gctrpc.GenericResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
w, err := exch.GetWebsocket()
if err != nil {
return nil, fmt.Errorf("websocket not supported for exchange %s", r.Exchange)
}
err = w.SetWebsocketURL(r.Url, false, true)
if err != nil {
return nil, err
}
return &gctrpc.GenericResponse{Status: MsgStatusSuccess,
Data: fmt.Sprintf("new URL has been set [%s] for %s websocket connection",
r.Exchange,
r.Url)}, nil
}
// GetSavedTrades returns trades from the database
func (s *RPCServer) GetSavedTrades(_ context.Context, r *gctrpc.GetSavedTradesRequest) (*gctrpc.SavedTradesResponse, error) {
if r.End == "" || r.Start == "" || r.Exchange == "" || r.Pair == nil || r.AssetType == "" || r.Pair.String() == "" {
return nil, errInvalidArguments
}
p := currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
}
a, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, a, p)
if err != nil {
return nil, err
}
var UTCStartTime, UTCEndTime time.Time
UTCStartTime, err = time.Parse(common.SimpleTimeFormat, r.Start)
if err != nil {
return nil, err
}
UTCEndTime, err = time.Parse(common.SimpleTimeFormat, r.End)
if err != nil {
return nil, err
}
var trades []trade.Data
trades, err = trade.GetTradesInRange(r.Exchange, r.AssetType, r.Pair.Base, r.Pair.Quote, UTCStartTime, UTCEndTime)
if err != nil {
return nil, err
}
resp := &gctrpc.SavedTradesResponse{
ExchangeName: r.Exchange,
Asset: r.AssetType,
Pair: r.Pair,
}
for i := range trades {
resp.Trades = append(resp.Trades, &gctrpc.SavedTrades{
Price: trades[i].Price,
Amount: trades[i].Amount,
Side: trades[i].Side.String(),
Timestamp: trades[i].Timestamp.In(time.UTC).Format(common.SimpleTimeFormatWithTimezone),
TradeId: trades[i].TID,
})
}
if len(resp.Trades) == 0 {
return nil, fmt.Errorf("request for %v %v trade data between %v and %v and returned no results", r.Exchange, r.AssetType, r.Start, r.End)
}
return resp, nil
}
// ConvertTradesToCandles converts trades to candles using the interval requested
// returns the data too for extra fun scrutiny
func (s *RPCServer) ConvertTradesToCandles(_ context.Context, r *gctrpc.ConvertTradesToCandlesRequest) (*gctrpc.GetHistoricCandlesResponse, error) {
if r.End == "" || r.Start == "" || r.Exchange == "" || r.Pair == nil || r.AssetType == "" || r.Pair.String() == "" || r.TimeInterval == 0 {
return nil, errInvalidArguments
}
UTCStartTime, err := time.Parse(common.SimpleTimeFormat, r.Start)
if err != nil {
return nil, err
}
var UTCEndTime time.Time
UTCEndTime, err = time.Parse(common.SimpleTimeFormat, r.End)
if err != nil {
return nil, err
}
p := currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
}
a, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, a, p)
if err != nil {
return nil, err
}
var trades []trade.Data
trades, err = trade.GetTradesInRange(r.Exchange, r.AssetType, r.Pair.Base, r.Pair.Quote, UTCStartTime, UTCEndTime)
if err != nil {
return nil, err
}
if len(trades) == 0 {
return nil, fmt.Errorf("no trades returned from supplied params")
}
interval := kline.Interval(r.TimeInterval)
var klineItem kline.Item
klineItem, err = trade.ConvertTradesToCandles(interval, trades...)
if err != nil {
return nil, err
}
if len(klineItem.Candles) == 0 {
return nil, fmt.Errorf("no candles generated from trades")
}
resp := &gctrpc.GetHistoricCandlesResponse{
Exchange: r.Exchange,
Pair: r.Pair,
Start: r.Start,
End: r.End,
Interval: interval.String(),
}
for i := range klineItem.Candles {
resp.Candle = append(resp.Candle, &gctrpc.Candle{
Time: klineItem.Candles[i].Time.In(time.UTC).Format(common.SimpleTimeFormatWithTimezone),
Low: klineItem.Candles[i].Low,
High: klineItem.Candles[i].High,
Open: klineItem.Candles[i].Open,
Close: klineItem.Candles[i].Close,
Volume: klineItem.Candles[i].Volume,
})
}
if r.Sync {
_, err = kline.StoreInDatabase(&klineItem, r.Force)
if err != nil {
return nil, err
}
}
return resp, nil
}
// FindMissingSavedCandleIntervals is used to help determine what candle data is missing
func (s *RPCServer) FindMissingSavedCandleIntervals(_ context.Context, r *gctrpc.FindMissingCandlePeriodsRequest) (*gctrpc.FindMissingIntervalsResponse, error) {
if r.End == "" || r.Start == "" || r.ExchangeName == "" || r.Pair == nil || r.AssetType == "" || r.Pair.String() == "" || r.Interval <= 0 {
return nil, errInvalidArguments
}
p := currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
}
a, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
exch := s.GetExchangeByName(r.ExchangeName)
err = checkParams(r.ExchangeName, exch, a, p)
if err != nil {
return nil, err
}
var UTCStartTime, UTCEndTime time.Time
UTCStartTime, err = time.Parse(common.SimpleTimeFormat, r.Start)
if err != nil {
return nil, err
}
UTCEndTime, err = time.Parse(common.SimpleTimeFormat, r.End)
if err != nil {
return nil, err
}
klineItem, err := kline.LoadFromDatabase(
r.ExchangeName,
p,
a,
kline.Interval(r.Interval),
UTCStartTime,
UTCEndTime,
)
if err != nil {
return nil, err
}
resp := &gctrpc.FindMissingIntervalsResponse{
ExchangeName: r.ExchangeName,
AssetType: r.AssetType,
Pair: r.Pair,
MissingPeriods: []string{},
}
var candleTimes []time.Time
for i := range klineItem.Candles {
candleTimes = append(candleTimes, klineItem.Candles[i].Time)
}
var ranges []timeperiods.TimeRange
ranges, err = timeperiods.FindTimeRangesContainingData(UTCStartTime, UTCEndTime, klineItem.Interval.Duration(), candleTimes)
if err != nil {
return nil, err
}
foundCount := 0
for i := range ranges {
if !ranges[i].HasDataInRange {
resp.MissingPeriods = append(resp.MissingPeriods,
ranges[i].StartOfRange.UTC().Format(common.SimpleTimeFormatWithTimezone)+
" - "+
ranges[i].EndOfRange.UTC().Format(common.SimpleTimeFormatWithTimezone))
} else {
foundCount++
}
}
if len(resp.MissingPeriods) == 0 {
resp.Status = fmt.Sprintf("no missing candles found between %v and %v",
r.Start,
r.End,
)
} else {
resp.Status = fmt.Sprintf("Found %v candles. Missing %v candles in requested timeframe starting %v ending %v",
foundCount,
len(resp.MissingPeriods),
UTCStartTime.In(time.UTC).Format(common.SimpleTimeFormatWithTimezone),
UTCEndTime.In(time.UTC).Format(common.SimpleTimeFormatWithTimezone))
}
return resp, nil
}
// FindMissingSavedTradeIntervals is used to help determine what trade data is missing
func (s *RPCServer) FindMissingSavedTradeIntervals(_ context.Context, r *gctrpc.FindMissingTradePeriodsRequest) (*gctrpc.FindMissingIntervalsResponse, error) {
if r.End == "" || r.Start == "" || r.ExchangeName == "" || r.Pair == nil || r.AssetType == "" || r.Pair.String() == "" {
return nil, errInvalidArguments
}
p := currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
}
a, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
exch := s.GetExchangeByName(r.ExchangeName)
err = checkParams(r.ExchangeName, exch, a, p)
if err != nil {
return nil, err
}
var UTCStartTime, UTCEndTime time.Time
UTCStartTime, err = time.Parse(common.SimpleTimeFormat, r.Start)
if err != nil {
return nil, err
}
UTCStartTime = UTCStartTime.Truncate(time.Hour)
UTCEndTime, err = time.Parse(common.SimpleTimeFormat, r.End)
if err != nil {
return nil, err
}
UTCEndTime = UTCEndTime.Truncate(time.Hour)
intervalMap := make(map[time.Time]bool)
iterationTime := UTCStartTime
for iterationTime.Before(UTCEndTime) {
intervalMap[iterationTime] = false
iterationTime = iterationTime.Add(time.Hour)
}
var trades []trade.Data
trades, err = trade.GetTradesInRange(
r.ExchangeName,
r.AssetType,
r.Pair.Base,
r.Pair.Quote,
UTCStartTime,
UTCEndTime,
)
if err != nil {
return nil, err
}
resp := &gctrpc.FindMissingIntervalsResponse{
ExchangeName: r.ExchangeName,
AssetType: r.AssetType,
Pair: r.Pair,
MissingPeriods: []string{},
}
var tradeTimes []time.Time
for i := range trades {
tradeTimes = append(tradeTimes, trades[i].Timestamp)
}
var ranges []timeperiods.TimeRange
ranges, err = timeperiods.FindTimeRangesContainingData(UTCStartTime, UTCEndTime, time.Hour, tradeTimes)
if err != nil {
return nil, err
}
foundCount := 0
for i := range ranges {
if !ranges[i].HasDataInRange {
resp.MissingPeriods = append(resp.MissingPeriods,
ranges[i].StartOfRange.UTC().Format(common.SimpleTimeFormatWithTimezone)+
" - "+
ranges[i].EndOfRange.UTC().Format(common.SimpleTimeFormatWithTimezone))
} else {
foundCount++
}
}
if len(resp.MissingPeriods) == 0 {
resp.Status = fmt.Sprintf("no missing periods found between %v and %v",
r.Start,
r.End,
)
} else {
resp.Status = fmt.Sprintf("Found %v periods. Missing %v periods between %v and %v",
foundCount,
len(resp.MissingPeriods),
UTCStartTime.In(time.UTC).Format(common.SimpleTimeFormatWithTimezone),
UTCEndTime.In(time.UTC).Format(common.SimpleTimeFormatWithTimezone))
}
return resp, nil
}
// SetExchangeTradeProcessing allows the setting of exchange trade processing
func (s *RPCServer) SetExchangeTradeProcessing(_ context.Context, r *gctrpc.SetExchangeTradeProcessingRequest) (*gctrpc.GenericResponse, error) {
exch := s.GetExchangeByName(r.Exchange)
if exch == nil {
return nil, errExchangeNotLoaded
}
b := exch.GetBase()
b.SetSaveTradeDataStatus(r.Status)
return &gctrpc.GenericResponse{
Status: "success",
}, nil
}
// GetHistoricTrades returns trades between a set of dates
func (s *RPCServer) GetHistoricTrades(r *gctrpc.GetSavedTradesRequest, stream gctrpc.GoCryptoTrader_GetHistoricTradesServer) error {
if r.Exchange == "" || r.Pair == nil || r.AssetType == "" || r.Pair.String() == "" {
return errInvalidArguments
}
cp := currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
}
a, err := asset.New(r.AssetType)
if err != nil {
return err
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, a, cp)
if err != nil {
return err
}
var trades []trade.Data
var UTCStartTime, UTCEndTime time.Time
UTCStartTime, err = time.Parse(common.SimpleTimeFormat, r.Start)
if err != nil {
return err
}
UTCEndTime, err = time.Parse(common.SimpleTimeFormat, r.End)
if err != nil {
return err
}
resp := &gctrpc.SavedTradesResponse{
ExchangeName: r.Exchange,
Asset: r.AssetType,
Pair: r.Pair,
}
for iterateStartTime := UTCStartTime; iterateStartTime.Before(UTCEndTime); iterateStartTime = iterateStartTime.Add(time.Hour) {
iterateEndTime := iterateStartTime.Add(time.Hour)
trades, err = exch.GetHistoricTrades(cp, a, iterateStartTime, iterateEndTime)
if err != nil {
return err
}
if len(trades) == 0 {
continue
}
grpcTrades := &gctrpc.SavedTradesResponse{
ExchangeName: r.Exchange,
Asset: r.AssetType,
Pair: r.Pair,
}
for i := range trades {
tradeTS := trades[i].Timestamp.In(time.UTC)
if tradeTS.After(UTCEndTime) {
break
}
grpcTrades.Trades = append(grpcTrades.Trades, &gctrpc.SavedTrades{
Price: trades[i].Price,
Amount: trades[i].Amount,
Side: trades[i].Side.String(),
Timestamp: tradeTS.Format(common.SimpleTimeFormatWithTimezone),
TradeId: trades[i].TID,
})
}
stream.Send(grpcTrades)
}
stream.Send(resp)
return nil
}
// GetRecentTrades returns trades
func (s *RPCServer) GetRecentTrades(_ context.Context, r *gctrpc.GetSavedTradesRequest) (*gctrpc.SavedTradesResponse, error) {
if r.Exchange == "" || r.Pair == nil || r.AssetType == "" || r.Pair.String() == "" {
return nil, errInvalidArguments
}
cp := currency.Pair{
Delimiter: r.Pair.Delimiter,
Base: currency.NewCode(r.Pair.Base),
Quote: currency.NewCode(r.Pair.Quote),
}
a, err := asset.New(r.AssetType)
if err != nil {
return nil, err
}
exch := s.GetExchangeByName(r.Exchange)
err = checkParams(r.Exchange, exch, a, cp)
if err != nil {
return nil, err
}
var trades []trade.Data
trades, err = exch.GetRecentTrades(cp, asset.Item(r.AssetType))
if err != nil {
return nil, err
}
resp := &gctrpc.SavedTradesResponse{
ExchangeName: r.Exchange,
Asset: r.AssetType,
Pair: r.Pair,
}
for i := range trades {
resp.Trades = append(resp.Trades, &gctrpc.SavedTrades{
Price: trades[i].Price,
Amount: trades[i].Amount,
Side: trades[i].Side.String(),
Timestamp: trades[i].Timestamp.In(time.UTC).Format(common.SimpleTimeFormatWithTimezone),
TradeId: trades[i].TID,
})
}
if len(resp.Trades) == 0 {
return nil, fmt.Errorf("request for %v %v trade data and returned no results", r.Exchange, r.AssetType)
}
return resp, nil
}
func checkParams(exchName string, e exchange.IBotExchange, a asset.Item, p currency.Pair) error {
if e == nil {
return fmt.Errorf("%s %w", exchName, errExchangeNotLoaded)
}
if !e.IsEnabled() {
return fmt.Errorf("%s %w", exchName, errExchangeDisabled)
}
if a.IsValid() {
b := e.GetBase()
if b == nil {
return fmt.Errorf("%s %w", exchName, errExchangeBaseNotFound)
}
err := b.CurrencyPairs.IsAssetEnabled(a)
if err != nil {
return fmt.Errorf("%v %w", a, errAssetTypeDisabled)
}
}
if p.IsEmpty() {
return nil
}
enabledPairs, err := e.GetEnabledPairs(a)
if err != nil {
return err
}
if enabledPairs.Contains(p, true) {
return nil
}
availablePairs, err := e.GetAvailablePairs(a)
if err != nil {
return err
}
if availablePairs.Contains(p, true) {
return fmt.Errorf("%v %w", p, errCurrencyNotEnabled)
}
return fmt.Errorf("%v %w", p, errCurrencyPairInvalid)
}
Reference in New Issue View Git Blame Copy Permalink