Files
nofx/manager/trader_manager.go
shinchan-zhai fd28aa7fc6 reliability: wrap all 27 bare goroutines with safe.Go/GoNamed panic recovery
Applied safe.GoNamed to:
- 9 exchange order_sync goroutines (OKX, Hyperliquid, Aster, Bybit, KuCoin, Gate, Bitget, Lighter, Binance×2)
- Drawdown monitor (auto_trader_risk.go)
- Brain news scanner + market briefs (agent/brain.go)
- Sentinel scanner (agent/sentinel.go)
- Agent scheduler (agent/scheduler.go)
- x402 idle watchdog (mcp/payment/x402.go)
- MCP stream idle watchdog (mcp/client.go)
- Rate limiter cleanup (api/rate_limiter.go)
- 3 telemetry fire-and-forget sends (telemetry/experience.go)
- CoinAnk WS handler (provider/coinank/coinank_api/kline_ws.go)
- API server goroutine (main.go)

Added manual defer/recover with error reporting to:
- Telegram AI agent handler (sends error msg to user on panic)
- Trader data fetch (returns error result on panic to prevent deadlock)

Before: a panic in ANY of these 27 goroutines would crash the entire
trading process with zero diagnostics. Now all panics are caught, logged
with stack traces, and the process continues running.
2026-03-25 01:05:54 +08:00

759 lines
24 KiB
Go

package manager
import (
"context"
"fmt"
"nofx/logger"
"nofx/safe"
"nofx/store"
"nofx/trader"
"sort"
"sync"
"time"
)
// CompetitionCache competition data cache
type CompetitionCache struct {
data map[string]interface{}
timestamp time.Time
mu sync.RWMutex
}
// TraderManager manages multiple trader instances
type TraderManager struct {
traders map[string]*trader.AutoTrader // key: trader ID
loadErrors map[string]error // key: trader ID, stores last load error
competitionCache *CompetitionCache
mu sync.RWMutex
}
// NewTraderManager creates a trader manager
func NewTraderManager() *TraderManager {
return &TraderManager{
traders: make(map[string]*trader.AutoTrader),
loadErrors: make(map[string]error),
competitionCache: &CompetitionCache{
data: make(map[string]interface{}),
},
}
}
// GetLoadError returns the last load error for a trader
func (tm *TraderManager) GetLoadError(traderID string) error {
tm.mu.RLock()
defer tm.mu.RUnlock()
return tm.loadErrors[traderID]
}
// GetTrader retrieves a trader by ID
func (tm *TraderManager) GetTrader(id string) (*trader.AutoTrader, error) {
tm.mu.RLock()
defer tm.mu.RUnlock()
t, exists := tm.traders[id]
if !exists {
return nil, fmt.Errorf("trader ID '%s' does not exist", id)
}
return t, nil
}
// GetAllTraders retrieves all traders
func (tm *TraderManager) GetAllTraders() map[string]*trader.AutoTrader {
tm.mu.RLock()
defer tm.mu.RUnlock()
result := make(map[string]*trader.AutoTrader)
for id, t := range tm.traders {
result[id] = t
}
return result
}
// GetTraderIDs retrieves all trader IDs
func (tm *TraderManager) GetTraderIDs() []string {
tm.mu.RLock()
defer tm.mu.RUnlock()
ids := make([]string, 0, len(tm.traders))
for id := range tm.traders {
ids = append(ids, id)
}
return ids
}
// StartAll starts all traders
func (tm *TraderManager) StartAll() {
tm.mu.RLock()
defer tm.mu.RUnlock()
logger.Info("🚀 Starting all traders...")
for id, t := range tm.traders {
traderID, at := id, t
safe.GoNamed("trader-"+at.GetName(), func() {
logger.Infof("▶️ Starting %s...", at.GetName())
if err := at.Run(); err != nil {
logger.Infof("❌ %s runtime error: %v", at.GetName(), err)
}
})
_ = traderID
}
}
// StopAll stops all traders
func (tm *TraderManager) StopAll() {
tm.mu.RLock()
defer tm.mu.RUnlock()
logger.Info("⏹ Stopping all traders...")
for _, t := range tm.traders {
t.Stop()
}
}
// AutoStartRunningTraders automatically starts traders marked as running in the database
func (tm *TraderManager) AutoStartRunningTraders(st *store.Store) {
// Get all trader configurations (single query)
traderList, err := st.Trader().ListAll()
if err != nil {
logger.Infof("⚠️ Failed to get trader list: %v", err)
return
}
// Build set of running trader IDs
runningTraderIDs := make(map[string]bool)
for _, traderCfg := range traderList {
if traderCfg.IsRunning {
runningTraderIDs[traderCfg.ID] = true
}
}
if len(runningTraderIDs) == 0 {
logger.Info("📋 No traders to auto-restore")
return
}
tm.mu.RLock()
defer tm.mu.RUnlock()
startedCount := 0
for id, t := range tm.traders {
if runningTraderIDs[id] {
at := t
safe.GoNamed("trader-restore-"+at.GetName(), func() {
logger.Infof("▶️ Auto-restoring %s...", at.GetName())
if err := at.Run(); err != nil {
logger.Infof("❌ %s runtime error: %v", at.GetName(), err)
}
})
startedCount++
}
}
if startedCount > 0 {
logger.Infof("✓ Auto-restored %d traders", startedCount)
}
}
// GetComparisonData retrieves comparison data
func (tm *TraderManager) GetComparisonData() (map[string]interface{}, error) {
tm.mu.RLock()
defer tm.mu.RUnlock()
comparison := make(map[string]interface{})
traders := make([]map[string]interface{}, 0, len(tm.traders))
for _, t := range tm.traders {
account, err := t.GetAccountInfo()
if err != nil {
continue
}
status := t.GetStatus()
traders = append(traders, map[string]interface{}{
"trader_id": t.GetID(),
"trader_name": t.GetName(),
"ai_model": t.GetAIModel(),
"exchange": t.GetExchange(),
"total_equity": account["total_equity"],
"total_pnl": account["total_pnl"],
"total_pnl_pct": account["total_pnl_pct"],
"position_count": account["position_count"],
"margin_used_pct": account["margin_used_pct"],
"call_count": status["call_count"],
"is_running": status["is_running"],
})
}
comparison["traders"] = traders
comparison["count"] = len(traders)
return comparison, nil
}
// GetCompetitionData retrieves competition data (all traders across platform)
func (tm *TraderManager) GetCompetitionData() (map[string]interface{}, error) {
// Check if cache is valid (within 30 seconds)
tm.competitionCache.mu.RLock()
if time.Since(tm.competitionCache.timestamp) < 30*time.Second && len(tm.competitionCache.data) > 0 {
// Return cached data
cachedData := make(map[string]interface{})
for k, v := range tm.competitionCache.data {
cachedData[k] = v
}
tm.competitionCache.mu.RUnlock()
logger.Infof("📋 Returning competition data cache (cache age: %.1fs)", time.Since(tm.competitionCache.timestamp).Seconds())
return cachedData, nil
}
tm.competitionCache.mu.RUnlock()
tm.mu.RLock()
// Get all trader list (only those with ShowInCompetition = true)
allTraders := make([]*trader.AutoTrader, 0, len(tm.traders))
for id, t := range tm.traders {
if t.GetShowInCompetition() {
allTraders = append(allTraders, t)
logger.Infof("📋 Competition data includes trader: %s (%s)", t.GetName(), id)
} else {
logger.Infof("📋 Competition data excludes trader (hidden): %s (%s)", t.GetName(), id)
}
}
tm.mu.RUnlock()
logger.Infof("🔄 Refreshing competition data, trader count: %d", len(allTraders))
// Concurrently fetch trader data
traders := tm.getConcurrentTraderData(allTraders)
// Sort by profit rate (descending)
sort.Slice(traders, func(i, j int) bool {
pnlPctI, okI := traders[i]["total_pnl_pct"].(float64)
pnlPctJ, okJ := traders[j]["total_pnl_pct"].(float64)
if !okI {
pnlPctI = 0
}
if !okJ {
pnlPctJ = 0
}
return pnlPctI > pnlPctJ
})
// Limit to top 50
totalCount := len(traders)
limit := 50
if len(traders) > limit {
traders = traders[:limit]
}
comparison := make(map[string]interface{})
comparison["traders"] = traders
comparison["count"] = len(traders)
comparison["total_count"] = totalCount // Total number of traders
// Update cache
tm.competitionCache.mu.Lock()
tm.competitionCache.data = comparison
tm.competitionCache.timestamp = time.Now()
tm.competitionCache.mu.Unlock()
return comparison, nil
}
// getConcurrentTraderData concurrently fetches data for multiple traders
func (tm *TraderManager) getConcurrentTraderData(traders []*trader.AutoTrader) []map[string]interface{} {
type traderResult struct {
index int
data map[string]interface{}
}
// Create result channel
resultChan := make(chan traderResult, len(traders))
// Concurrently fetch data for each trader
for i, t := range traders {
go func(index int, trader *trader.AutoTrader) {
defer func() {
if r := recover(); r != nil {
logger.Errorf("🔥 [trader-data-fetch] panic for trader %s: %v", trader.GetName(), r)
resultChan <- traderResult{index: index, data: map[string]interface{}{
"trader_id": trader.GetID(),
"trader_name": trader.GetName(),
"error": "internal panic",
}}
}
}()
// Set timeout to 10 seconds for single trader (increased from 3s for DEX reliability)
ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second)
defer cancel()
// Use channel for timeout control
accountChan := make(chan map[string]interface{}, 1)
errorChan := make(chan error, 1)
safe.GoNamed("trader-account-info", func() {
account, err := trader.GetAccountInfo()
if err != nil {
errorChan <- err
} else {
accountChan <- account
}
})
status := trader.GetStatus()
var traderData map[string]interface{}
select {
case account := <-accountChan:
// Successfully got account info
traderData = map[string]interface{}{
"trader_id": trader.GetID(),
"trader_name": trader.GetName(),
"ai_model": trader.GetAIModel(),
"exchange": trader.GetExchange(),
"total_equity": account["total_equity"],
"total_pnl": account["total_pnl"],
"total_pnl_pct": account["total_pnl_pct"],
"position_count": account["position_count"],
"margin_used_pct": account["margin_used_pct"],
"is_running": status["is_running"],
"system_prompt_template": trader.GetSystemPromptTemplate(),
}
case err := <-errorChan:
// Failed to get account info
logger.Infof("⚠️ Failed to get account info for trader %s (%s/%s): %v", trader.GetName(), trader.GetID(), trader.GetExchange(), err)
traderData = map[string]interface{}{
"trader_id": trader.GetID(),
"trader_name": trader.GetName(),
"ai_model": trader.GetAIModel(),
"exchange": trader.GetExchange(),
"total_equity": 0.0,
"total_pnl": 0.0,
"total_pnl_pct": 0.0,
"position_count": 0,
"margin_used_pct": 0.0,
"is_running": status["is_running"],
"system_prompt_template": trader.GetSystemPromptTemplate(),
"error": "Failed to get account data",
}
case <-ctx.Done():
// Timeout
logger.Infof("⏰ Timeout (10s) getting account info for trader %s (%s/%s)", trader.GetName(), trader.GetID(), trader.GetExchange())
traderData = map[string]interface{}{
"trader_id": trader.GetID(),
"trader_name": trader.GetName(),
"ai_model": trader.GetAIModel(),
"exchange": trader.GetExchange(),
"total_equity": 0.0,
"total_pnl": 0.0,
"total_pnl_pct": 0.0,
"position_count": 0,
"margin_used_pct": 0.0,
"is_running": status["is_running"],
"system_prompt_template": trader.GetSystemPromptTemplate(),
"error": "Request timeout",
}
}
resultChan <- traderResult{index: index, data: traderData}
}(i, t)
}
// Collect all results
results := make([]map[string]interface{}, len(traders))
for i := 0; i < len(traders); i++ {
result := <-resultChan
results[result.index] = result.data
}
return results
}
// GetTopTradersData retrieves top 5 traders data (for performance comparison)
func (tm *TraderManager) GetTopTradersData() (map[string]interface{}, error) {
// Reuse competition data cache, as top 5 is filtered from all data
competitionData, err := tm.GetCompetitionData()
if err != nil {
return nil, err
}
// Extract top 5 from competition data
allTraders, ok := competitionData["traders"].([]map[string]interface{})
if !ok {
return nil, fmt.Errorf("invalid competition data format")
}
// Limit to top 5
limit := 5
topTraders := allTraders
if len(allTraders) > limit {
topTraders = allTraders[:limit]
}
result := map[string]interface{}{
"traders": topTraders,
"count": len(topTraders),
}
return result, nil
}
// RemoveTrader removes a trader from memory (does not affect database)
// Used to force reload when updating trader configuration
// If the trader is running, it will be stopped first
func (tm *TraderManager) RemoveTrader(traderID string) {
tm.mu.Lock()
defer tm.mu.Unlock()
if t, exists := tm.traders[traderID]; exists {
// Stop the trader if it's running (this ensures the goroutine exits)
status := t.GetStatus()
if isRunning, ok := status["is_running"].(bool); ok && isRunning {
logger.Infof("⏹ Stopping trader %s before removing from memory...", traderID)
t.Stop()
}
delete(tm.traders, traderID)
logger.Infof("✓ Trader %s removed from memory", traderID)
}
}
// LoadUserTradersFromStore loads traders from store for a specific user to memory
func (tm *TraderManager) LoadUserTradersFromStore(st *store.Store, userID string) error {
tm.mu.Lock()
defer tm.mu.Unlock()
// Get all traders for the specified user
traders, err := st.Trader().List(userID)
if err != nil {
return fmt.Errorf("failed to get trader list for user %s: %w", userID, err)
}
logger.Infof("📋 Loading trader configurations for user %s: %d traders", userID, len(traders))
// Get AI model and exchange lists (query only once outside loop)
aiModels, err := st.AIModel().List(userID)
if err != nil {
logger.Infof("⚠️ Failed to get AI model config for user %s: %v", userID, err)
return fmt.Errorf("failed to get AI model config: %w", err)
}
exchanges, err := st.Exchange().List(userID)
if err != nil {
logger.Infof("⚠️ Failed to get exchange config for user %s: %v", userID, err)
return fmt.Errorf("failed to get exchange config: %w", err)
}
// Load configuration for each trader
for _, traderCfg := range traders {
// Check if this trader is already loaded
if _, exists := tm.traders[traderCfg.ID]; exists {
// Trader already loaded - this is normal, no need to log
continue
}
// Find AI model config from already queried list
var aiModelCfg *store.AIModel
for _, model := range aiModels {
if model.ID == traderCfg.AIModelID {
aiModelCfg = model
break
}
}
if aiModelCfg == nil {
for _, model := range aiModels {
if model.Provider == traderCfg.AIModelID {
aiModelCfg = model
break
}
}
}
if aiModelCfg == nil {
logger.Infof("⚠️ AI model %s for trader %s does not exist, skipping", traderCfg.AIModelID, traderCfg.Name)
continue
}
if !aiModelCfg.Enabled {
logger.Infof("⚠️ AI model %s for trader %s is not enabled, skipping", traderCfg.AIModelID, traderCfg.Name)
continue
}
// Find exchange config from already queried list
var exchangeCfg *store.Exchange
for _, exchange := range exchanges {
if exchange.ID == traderCfg.ExchangeID {
exchangeCfg = exchange
break
}
}
if exchangeCfg == nil {
logger.Infof("⚠️ Exchange %s for trader %s does not exist, skipping", traderCfg.ExchangeID, traderCfg.Name)
continue
}
if !exchangeCfg.Enabled {
logger.Infof("⚠️ Exchange %s for trader %s is not enabled, skipping", traderCfg.ExchangeID, traderCfg.Name)
continue
}
// Use existing method to load trader
logger.Infof("📦 Loading trader %s (AI Model: %s, Exchange: %s/%s, Strategy ID: %s)", traderCfg.Name, aiModelCfg.Provider, exchangeCfg.ExchangeType, exchangeCfg.AccountName, traderCfg.StrategyID)
err = tm.addTraderFromStore(traderCfg, aiModelCfg, exchangeCfg, st)
if err != nil {
logger.Infof("❌ Failed to load trader %s: %v", traderCfg.Name, err)
// Save error for later retrieval
tm.loadErrors[traderCfg.ID] = err
} else {
// Clear any previous error on success
delete(tm.loadErrors, traderCfg.ID)
}
}
return nil
}
// LoadTradersFromStore loads all traders from store to memory (new API)
func (tm *TraderManager) LoadTradersFromStore(st *store.Store) error {
tm.mu.Lock()
defer tm.mu.Unlock()
// Get all users
userIDs, err := st.User().GetAllIDs()
if err != nil {
return fmt.Errorf("failed to get user list: %w", err)
}
logger.Infof("📋 Found %d users, loading all trader configurations...", len(userIDs))
var allTraders []*store.Trader
for _, userID := range userIDs {
// Get traders for each user
traders, err := st.Trader().List(userID)
if err != nil {
logger.Infof("⚠️ Failed to get traders for user %s: %v", userID, err)
continue
}
logger.Infof("📋 User %s: %d traders", userID, len(traders))
allTraders = append(allTraders, traders...)
}
logger.Infof("📋 Total loaded trader configurations: %d", len(allTraders))
// Get AI model and exchange configs for each trader
for _, traderCfg := range allTraders {
// Get AI model config
aiModels, err := st.AIModel().List(traderCfg.UserID)
if err != nil {
logger.Infof("⚠️ Failed to get AI model config: %v", err)
continue
}
var aiModelCfg *store.AIModel
// Prioritize exact match on model.ID
for _, model := range aiModels {
if model.ID == traderCfg.AIModelID {
aiModelCfg = model
break
}
}
// If no exact match, try matching provider (for backward compatibility)
if aiModelCfg == nil {
for _, model := range aiModels {
if model.Provider == traderCfg.AIModelID {
aiModelCfg = model
logger.Infof("⚠️ Trader %s using legacy provider match: %s -> %s", traderCfg.Name, traderCfg.AIModelID, model.ID)
break
}
}
}
if aiModelCfg == nil {
logger.Infof("⚠️ AI model %s for trader %s does not exist, skipping", traderCfg.AIModelID, traderCfg.Name)
continue
}
if !aiModelCfg.Enabled {
logger.Infof("⚠️ AI model %s for trader %s is not enabled, skipping", traderCfg.AIModelID, traderCfg.Name)
continue
}
// Get exchange config
exchanges, err := st.Exchange().List(traderCfg.UserID)
if err != nil {
logger.Infof("⚠️ Failed to get exchange config: %v", err)
continue
}
var exchangeCfg *store.Exchange
for _, exchange := range exchanges {
if exchange.ID == traderCfg.ExchangeID {
exchangeCfg = exchange
break
}
}
if exchangeCfg == nil {
logger.Infof("⚠️ Exchange %s for trader %s does not exist, skipping", traderCfg.ExchangeID, traderCfg.Name)
continue
}
if !exchangeCfg.Enabled {
logger.Infof("⚠️ Exchange %s for trader %s is not enabled, skipping", traderCfg.ExchangeID, traderCfg.Name)
continue
}
// Add to TraderManager (ai500APIURL/oiTopAPIURL already obtained from strategy config)
err = tm.addTraderFromStore(traderCfg, aiModelCfg, exchangeCfg, st)
if err != nil {
logger.Infof("❌ Failed to add trader %s: %v", traderCfg.Name, err)
continue
}
}
logger.Infof("✓ Successfully loaded %d traders to memory", len(tm.traders))
return nil
}
// addTraderFromStore internal method: adds trader from store configuration
func (tm *TraderManager) addTraderFromStore(traderCfg *store.Trader, aiModelCfg *store.AIModel, exchangeCfg *store.Exchange, st *store.Store) error {
if _, exists := tm.traders[traderCfg.ID]; exists {
return fmt.Errorf("trader ID '%s' already exists", traderCfg.ID)
}
// Load strategy config (must have strategy)
var strategyConfig *store.StrategyConfig
if traderCfg.StrategyID != "" {
strategy, err := st.Strategy().Get(traderCfg.UserID, traderCfg.StrategyID)
if err != nil {
return fmt.Errorf("failed to load strategy %s for trader %s: %w", traderCfg.StrategyID, traderCfg.Name, err)
}
// Parse JSON config
strategyConfig, err = strategy.ParseConfig()
if err != nil {
return fmt.Errorf("failed to parse strategy config for trader %s: %w", traderCfg.Name, err)
}
logger.Infof("✓ Trader %s loaded strategy config: %s", traderCfg.Name, strategy.Name)
} else {
return fmt.Errorf("trader %s has no strategy configured", traderCfg.Name)
}
// Build AutoTraderConfig (ai500APIURL/oiTopAPIURL obtained from strategy config, used in StrategyEngine)
traderConfig := trader.AutoTraderConfig{
ID: traderCfg.ID,
Name: traderCfg.Name,
AIModel: aiModelCfg.Provider,
Exchange: exchangeCfg.ExchangeType, // Exchange type: binance/bybit/okx/etc
ExchangeID: exchangeCfg.ID, // Exchange account UUID (for multi-account)
BinanceAPIKey: "",
BinanceSecretKey: "",
HyperliquidPrivateKey: "",
HyperliquidTestnet: exchangeCfg.Testnet,
UseQwen: aiModelCfg.Provider == "qwen",
DeepSeekKey: "",
QwenKey: "",
CustomAPIURL: aiModelCfg.CustomAPIURL,
CustomModelName: aiModelCfg.CustomModelName,
ScanInterval: time.Duration(traderCfg.ScanIntervalMinutes) * time.Minute,
InitialBalance: traderCfg.InitialBalance,
IsCrossMargin: traderCfg.IsCrossMargin,
ShowInCompetition: traderCfg.ShowInCompetition,
StrategyConfig: strategyConfig,
}
logger.Infof("📊 Loading trader %s: ScanIntervalMinutes=%d (from DB), ScanInterval=%v",
traderCfg.Name, traderCfg.ScanIntervalMinutes, traderConfig.ScanInterval)
// Set API keys based on exchange type (convert EncryptedString to string)
switch exchangeCfg.ExchangeType {
case "binance":
traderConfig.BinanceAPIKey = string(exchangeCfg.APIKey)
traderConfig.BinanceSecretKey = string(exchangeCfg.SecretKey)
case "bybit":
traderConfig.BybitAPIKey = string(exchangeCfg.APIKey)
traderConfig.BybitSecretKey = string(exchangeCfg.SecretKey)
case "okx":
traderConfig.OKXAPIKey = string(exchangeCfg.APIKey)
traderConfig.OKXSecretKey = string(exchangeCfg.SecretKey)
traderConfig.OKXPassphrase = string(exchangeCfg.Passphrase)
case "bitget":
traderConfig.BitgetAPIKey = string(exchangeCfg.APIKey)
traderConfig.BitgetSecretKey = string(exchangeCfg.SecretKey)
traderConfig.BitgetPassphrase = string(exchangeCfg.Passphrase)
case "gate":
traderConfig.GateAPIKey = string(exchangeCfg.APIKey)
traderConfig.GateSecretKey = string(exchangeCfg.SecretKey)
case "kucoin":
traderConfig.KuCoinAPIKey = string(exchangeCfg.APIKey)
traderConfig.KuCoinSecretKey = string(exchangeCfg.SecretKey)
traderConfig.KuCoinPassphrase = string(exchangeCfg.Passphrase)
case "hyperliquid":
traderConfig.HyperliquidPrivateKey = string(exchangeCfg.APIKey)
traderConfig.HyperliquidWalletAddr = exchangeCfg.HyperliquidWalletAddr
traderConfig.HyperliquidUnifiedAcct = exchangeCfg.HyperliquidUnifiedAcct
case "aster":
traderConfig.AsterUser = exchangeCfg.AsterUser
traderConfig.AsterSigner = exchangeCfg.AsterSigner
traderConfig.AsterPrivateKey = string(exchangeCfg.AsterPrivateKey)
case "lighter":
traderConfig.LighterPrivateKey = string(exchangeCfg.LighterPrivateKey)
traderConfig.LighterWalletAddr = exchangeCfg.LighterWalletAddr
traderConfig.LighterAPIKeyPrivateKey = string(exchangeCfg.LighterAPIKeyPrivateKey)
traderConfig.LighterAPIKeyIndex = exchangeCfg.LighterAPIKeyIndex
traderConfig.LighterTestnet = exchangeCfg.Testnet
case "indodax":
traderConfig.IndodaxAPIKey = string(exchangeCfg.APIKey)
traderConfig.IndodaxSecretKey = string(exchangeCfg.SecretKey)
}
// Set API keys based on AI model (convert EncryptedString to string)
switch aiModelCfg.Provider {
case "qwen":
traderConfig.QwenKey = string(aiModelCfg.APIKey)
case "deepseek":
traderConfig.DeepSeekKey = string(aiModelCfg.APIKey)
default:
// For other providers (grok, openai, claude, gemini, kimi, etc.), use CustomAPIKey
traderConfig.CustomAPIKey = string(aiModelCfg.APIKey)
}
// Create trader instance
at, err := trader.NewAutoTrader(traderConfig, st, traderCfg.UserID)
if err != nil {
return fmt.Errorf("failed to create trader: %w", err)
}
// Set custom prompt (if exists)
if traderCfg.CustomPrompt != "" {
at.SetCustomPrompt(traderCfg.CustomPrompt)
at.SetOverrideBasePrompt(traderCfg.OverrideBasePrompt)
if traderCfg.OverrideBasePrompt {
logger.Infof("✓ Set custom trading strategy prompt (overriding base prompt)")
} else {
logger.Infof("✓ Set custom trading strategy prompt (supplementing base prompt)")
}
}
tm.traders[traderCfg.ID] = at
logger.Infof("✓ Trader '%s' (%s + %s/%s) loaded to memory", traderCfg.Name, aiModelCfg.Provider, exchangeCfg.ExchangeType, exchangeCfg.AccountName)
// Auto-start if trader was running before shutdown
if traderCfg.IsRunning {
logger.Infof("🔄 Auto-starting trader '%s' (was running before shutdown)...", traderCfg.Name)
autoStartTrader, autoStartName, autoStartID, autoStartUserID := at, traderCfg.Name, traderCfg.ID, traderCfg.UserID
safe.GoNamed("trader-autostart-"+autoStartName, func() {
if err := autoStartTrader.Run(); err != nil {
logger.Warnf("⚠️ Trader '%s' stopped with error: %v", autoStartName, err)
// Update database to reflect stopped state
if st != nil {
_ = st.Trader().UpdateStatus(autoStartUserID, autoStartID, false)
}
}
})
logger.Infof("✅ Trader '%s' auto-started successfully", traderCfg.Name)
}
return nil
}