chirpnest/main.go
2020-01-03 00:00:51 +08:00

201 lines
4.3 KiB
Go

package main
//go:generate go-bindata data/
import (
"database/sql"
"flag"
"fmt"
"log"
"math/rand"
"sync"
"time"
"gopkg.in/gcfg.v1"
//"github.com/robfig/cron/v3"
"gopkg.in/robfig/cron.v3"
_ "github.com/go-sql-driver/mysql"
tb "gopkg.in/tucnak/telebot.v2"
)
type Config struct {
Telegram struct {
URL string
Token string
}
SQL struct {
Driver string
Type string
Address string
Username string
Password string
Database string
}
Rabbit struct {
User string
Password string
Host string
Path string
}
Bot struct {
Admin int64
Guildname string
Guild string
Mainchat int64
Depositchat int64
Reportchat int64
}
}
var (
config = flag.String("config", "chirpnest.cfg", "config file path")
initdb = flag.Bool("initdb", false, "initialize bot database")
db *sql.DB
bot *tb.Bot
cr *cron.Cron
cfg Config
RndSrc *rand.Rand
RndMux sync.Mutex
MQCWMsgQueue chan ChatWarsMessage
SQLMsgIdentifyQueue chan int64
TGCmdQueue chan TGCommand
MQTGCmdQueue chan TGCommand
JobQueue chan Job
msgParsingRules map[int]MessageParsingRule
clients map[int64]*ChirpClient
muxClients sync.RWMutex
callbacks map[int64]map[int64][]int64
muxCallbacks sync.Mutex
gDepositForwardMux sync.Mutex
gDepositForwardMsg []int64
)
func PrintText(m *tb.Message) {
fmt.Printf("[%d] %s(%d) | %s(%d) : %s\n", m.ID, m.Chat.Title, m.Chat.ID, m.Sender.Username, m.Sender.ID, m.Text)
return
}
func main() {
log.Println("Starting Chirpnest...")
// Parsing config
flag.Parse()
// randomize
RndSrc = rand.New(rand.NewSource(time.Now().UTC().UnixNano()))
err := gcfg.ReadFileInto(&cfg, *config)
failOnError(err, "Parsing config")
_, err = Asset("data/code_obj_type.json")
failOnError(err, "data/code_obj_type.json")
_, err = Asset("data/code_obj_type.json")
failOnError(err, "data/code_obj_sub_type.json")
_, err = Asset("data/code_obj_type.json")
failOnError(err, "data/msg_rules.json")
// Connecting to DB
switch cfg.SQL.Driver {
case "mysql":
db, err = sql.Open("mysql", cfg.SQL.Username+":"+cfg.SQL.Password+"@"+cfg.SQL.Type+"("+cfg.SQL.Address+")/"+cfg.SQL.Database+"?parseTime=true")
failOnError(err, "Opening MySQL connection")
defer db.Close()
}
// Check if any issue
err = db.Ping()
failOnError(err, "Checking MySQL connection")
log.Println("SQL connection initialized")
if *initdb {
initDB()
}
initCache()
if *initdb {
_, _ = addObjCastle(`🦌`, `Deerhorn`)
_, _ = addObjCastle(`🐉`, `Dragonscale`)
_, _ = addObjCastle(`🦅`, `Highnest`)
_, _ = addObjCastle(`🌑`, `Moonlight`)
_, _ = addObjCastle(`🥔`, `Potato`)
_, _ = addObjCastle(`🦈`, `Sharkteeth`)
_, _ = addObjCastle(`🐺`, `Wolfpack`)
_, _ = addObjCastle(``, `Unknown`)
_, _ = addObjGuild(``, `No Guild`)
}
log.Println("Caching castles ..")
err = loadObjCastle()
logOnError(err, "initCache : caching castles")
// Registering bot
bot, err := tb.NewBot(tb.Settings{
Token: cfg.Telegram.Token,
URL: cfg.Telegram.URL,
Poller: &tb.LongPoller{Timeout: 10 * time.Second},
})
failOnError(err, "Registering bot")
log.Println("Bot registered")
log.Printf("URL : %s\n", bot.URL)
log.Printf("Token : %s\n", bot.Token)
go BotHandlers(bot)
u := tb.User{
ID: int(cfg.Bot.Admin),
}
bot.Send(&u, "Bot restarted")
cr = startCron()
MQCWMsgQueue = make(chan ChatWarsMessage, MQCWMsgQueueSize)
SQLMsgIdentifyQueue = make(chan int64, SQLMsgIdentifyQueueSize)
TGCmdQueue = make(chan TGCommand, TGCmdQueueSize)
MQTGCmdQueue = make(chan TGCommand, MQTGCmdQueueSize)
JobQueue = make(chan Job, JobQueueSize)
clients = make(map[int64]*ChirpClient)
callbacks = make(map[int64]map[int64][]int64)
for w := 1; w <= MQGetMsgWorkers; w++ {
go MQGetMsgWorker(w, MQCWMsgQueue)
}
for w := 1; w <= SQLCWMsgWorkers; w++ {
go SQLCWMsgWorker(w, MQCWMsgQueue, SQLMsgIdentifyQueue)
}
for w := 1; w <= SQLIdentifyMsgWorkers; w++ {
go SQLIdentifyMsgWorker(w, SQLMsgIdentifyQueue)
}
for w := 1; w <= JobWorkers; w++ {
go JobWorker(w, JobQueue)
}
for w := 1; w <= TGCmdWorkers; w++ {
go TGCmdWorker(w, bot, TGCmdQueue)
}
for w := 1; w <= MQTGCmdWorkers; w++ {
go MQTGCmdWorker(w, MQTGCmdQueue)
}
go SQLJobWorker()
go MQKeepAliveWorker()
go MQTidyKeepAliveWorker()
log.Println("Bot started !")
// Main loop
for {
time.Sleep(1 * time.Second)
}
}