package intimate import ( "fmt" "log" "os" "os/signal" "runtime" "strconv" "strings" "sync/atomic" "syscall" "time" "github.com/tebeka/selenium" "github.com/tebeka/selenium/chrome" ) var zeroTime time.Time func init() { tm, err := time.Parse("15:04:05", "0:00:00") if err != nil { log.Println(err) } zeroTime = tm } // ParseNumber 去逗号解析数字 func ParseNumber(number string) (int64, error) { number = strings.ReplaceAll(number, ",", "") return strconv.ParseInt(number, 10, 64) } // ParseNumberEx 解析带字符的数字 func ParseNumberEx(num string) (float64, error) { num = strings.Trim(num, " ") last := num[len(num)-1] factor := 1.0 switch { case last == 'k' || last == 'K': factor = 1000.0 num = num[0 : len(num)-1] case last == 'm' || last == 'M': factor = 1000000.0 num = num[0 : len(num)-1] } i, err := strconv.ParseFloat(num, 64) if err != nil { return 0, err } return i * factor, nil } // ParseDuration time to duration eg: 1:40:00 -> time.Duration func ParseDuration(dt string) (time.Duration, error) { var parse []byte = []byte("00:00:00") j := len(parse) - 1 for i := len(dt) - 1; i >= 0; i-- { c := dt[i] if c != ':' { parse[j] = dt[i] } else { for parse[j] != ':' { j-- } } j-- } tdt, err := time.Parse("15:04:05", string(parse)) if err != nil { return time.Duration(0), err } return tdt.Sub(zeroTime), nil } func GetChromeDriver(port int) selenium.WebDriver { var err error caps := selenium.Capabilities{"browserName": "chrome"} chromecaps := chrome.Capabilities{} for _, epath := range []string{"../../../crx/myblock.crx", "../../crx/myblock.crx"} { _, err := os.Stat(epath) if err == nil { err := chromecaps.AddExtension(epath) if err != nil { panic(err) } break } } if proxy := os.Getenv("chrome_proxy"); proxy != "" { log.Println("proxy-server", proxy) chromecaps.Args = append(chromecaps.Args, "--proxy-server="+proxy) } if proxy := os.Getenv("pac_proxy"); proxy != "" { log.Println("--proxy-pac-url=" + proxy) chromecaps.Args = append(chromecaps.Args, "--proxy-pac-url="+proxy) } // chromecaps.Args = append(chromecaps.Args, "--proxy-pac-url=http://127.0.0.1:1081/pac") chromecaps.Args = append(chromecaps.Args, "--disk-cache-dir=/tmp/chromedriver-cache") chromecaps.Args = append(chromecaps.Args, "--disable-gpu", "--disable-images", "--start-maximized", "--disable-infobars") // chromecaps.Args = append(chromecaps.Args, "--headless") chromecaps.Args = append(chromecaps.Args, "--no-sandbox") chromecaps.Args = append(chromecaps.Args, "--disable-dev-shm-usage", "--mute-audio", "--safebrowsing-disable-auto-update") chromecaps.ExcludeSwitches = append(chromecaps.ExcludeSwitches, "enable-automation") caps.AddChrome(chromecaps) _, err = selenium.NewChromeDriverService("/usr/bin/chromedriver", port) if err != nil { panic(err) } wd, err := selenium.NewRemote(caps, fmt.Sprintf("http://localhost:%d/wd/hub", port)) if err != nil { panic(err) } runtime.SetFinalizer(wd, func(obj interface{}) { if err := obj.(selenium.WebDriver).Close(); err != nil { log.Println(err) } if err := obj.(selenium.WebDriver).Quit(); err != nil { log.Println(err) } }) wd.ExecuteScript("windows.navigator.webdriver = undefined", nil) if err != nil { panic(err) } return wd } // PerfectShutdown 完美关闭程序 type PerfectShutdown struct { loop int32 } // NewPerfectShutdown 创建完美关闭程序 func NewPerfectShutdown() *PerfectShutdown { ps := &PerfectShutdown{} ps.loop = 1 go func() { signalchan := make(chan os.Signal) signal.Notify(signalchan, syscall.SIGINT, syscall.SIGKILL, syscall.SIGQUIT, syscall.SIGTERM, syscall.SIGSTOP) log.Println("accept stop command:", <-signalchan) atomic.StoreInt32(&ps.loop, 0) }() return ps } // IsClose 判断是否要关闭 func (ps *PerfectShutdown) IsClose() bool { return atomic.LoadInt32(&ps.loop) == 0 } type Counter struct { dcount int count int maxLimit int minLimit int minobj []interface{} maxobj []interface{} maxLimitToDo func(obj ...interface{}) error minLimitToDo func(obj ...interface{}) error } func NewCounter() *Counter { c := &Counter{} return c } // SetDefault 设置默认值 func (c *Counter) SetDefault(n int) { c.dcount = n } // Reset 最置count为defaultCount值 func (c *Counter) Reset() { c.count = c.dcount } // SetCount 设置count到最大值的时候执行do函数 func (c *Counter) SetCount(count int) { c.count = count } // GetCount 设置count到最大值的时候执行do函数 func (c *Counter) GetCount() int { return c.count } // SetMinLimit 设置最小限制 func (c *Counter) SetMinLimit(n int) { c.minLimit = n } // SetMaxLimit 设置最大限制 func (c *Counter) SetMaxLimit(n int) { c.maxLimit = n } // SetMaxToDo 设置count到最大值的时候执行do函数 func (c *Counter) SetMaxToDo(do func(obj ...interface{}) error, obj ...interface{}) { c.maxLimitToDo = do c.maxobj = obj } // SetMinToDo 设置count到最小值的时候执行do函数 func (c *Counter) SetMinToDo(do func(obj ...interface{}) error, obj ...interface{}) { c.minLimitToDo = do c.minobj = obj } // AddWithReset 操作 count 默认值为0, 当触发限制时, 重置为默认值 func (c *Counter) AddWithReset(n int) error { c.count += n if c.maxLimitToDo != nil { if c.count >= c.maxLimit { defer c.Reset() return c.maxLimitToDo(c.maxobj...) } } if c.minLimitToDo != nil { if c.count <= c.minLimit { defer c.Reset() return c.minLimitToDo(c.minobj...) } } return nil } // Add 操作 count 默认值为0 func (c *Counter) Add(n int) error { c.count += n if c.maxLimitToDo != nil { if c.count >= c.maxLimit { return c.maxLimitToDo(c.maxobj...) } } if c.minLimitToDo != nil { if c.count <= c.minLimit { return c.minLimitToDo(c.minobj...) } } return nil }