package agent import ( "crypto/md5" "encoding/json" "errors" "fmt" "github.com/Badangel/logex" "github.com/Badangel/pipeline" "os" "os/exec" "path" "path/filepath" "strconv" "strings" "sync" "time" ) const ( COMMAND_DOWNLOAD = "download" COMMAND_RELOAD = "reload" COMMAND_SWITCH = "enable" COMMAND_ROLLBACK = "rollback" COMMAND_CHECK = "check" COMMAND_CLEAR = "clear" COMMAND_POP = "pop" RETRY_TIMES = 3 REQUEST_MASTER_TIMEOUT_SECOND = 60 MAX_DOWN_CO = 7 RELOAD_RETRY_TIMES = 3 RELOAD_RETRY_INTERVAL_SECOND = 10 DOWNLOAD_DONE_MARK_FILE = ".download_done" ) type VersionInfo struct { Version string Depend string Source string } type Work struct { DictName string `json:"dict_name"` ShardSeq int `json:"shard_seq"` DeployPath string `json:"deploy_path"` Command string `json:"command"` Version string `json:"version"` Depend string `json:"depend"` Source string `json:"source"` Mode string `json:"mode"` DictMode string `json:"dict_mode"` Port string `json:"port"` bRollback bool `json:"b_rollback"` RollbackInfo []VersionInfo `json:"rollback_info"` Status string `json:"status"` FinishStatus string `json:"finish_status"` Service string `json:"service,omitempty"` VersionSign string `json:"version_sign,omitempty"` MasterAddress string `json:"master_address,omitempty"` ActiveVersionList string `json:"active_version_list,omitempty"` } func (work *Work) Token() string { return work.DictName + strconv.Itoa(work.ShardSeq) + work.Service } func (work *Work) Valid() bool { if work.Command == "" || work.Version == "" || work.Depend == "" { return false } return true } func (work *Work) DoWork() error { var err error if !work.Valid() { err = errors.New("Work is invalid") return err } switch work.Command { case COMMAND_DOWNLOAD: err = work.Download() case COMMAND_RELOAD: err = work.Reload() case COMMAND_SWITCH: err = work.Enable() case COMMAND_CHECK: err = work.Check() case COMMAND_CLEAR: err = work.Clear() case COMMAND_POP: err = work.Pop() default: logex.Debugf("Invalid command %s received", work.Command) err = errors.New("Invalid command.") } return err } func GetDownloadDirs(dictName, service, version, depend, deployPath string, shardSeq, split int) ([]string, error) { dirs := make([]string, 0, split) if deployPath == "" { return dirs, errors.New("Invalid Deploy path") } parentDir := getParentDir(version, depend) if split < 2 { disk := path.Join(deployPath, "cube_data") if service == "" { dirs = append(dirs, path.Join(disk, strconv.Itoa(shardSeq), parentDir)) } else { dirs = append(dirs, path.Join(disk, strconv.Itoa(shardSeq), parentDir+"-"+dictName)) } } else { for i := 0; i < split; i++ { disk := path.Join(deployPath, "cube_data") if service == "" { dirs = append(dirs, path.Join(disk, strconv.Itoa(shardSeq), strconv.Itoa(i), parentDir)) } else { dirs = append(dirs, path.Join(disk, strconv.Itoa(shardSeq), parentDir+"-"+dictName)) } } } return dirs, nil } func GetDataLinkDirs(dictName, service, version, depend, deployPath string, shardSeq, split int) []string { dirs := make([]string, 0, split) parentDir := getParentDir(version, depend) if split < 2 { disk := path.Join(deployPath, "data") if service == "" { dirs = append(dirs, path.Join(disk, parentDir)) } } else { for i := 0; i < split; i++ { disk := path.Join(deployPath, "data") if service == "" { dirs = append(dirs, path.Join(disk, strconv.Itoa(i), parentDir)) } } } return dirs } func (work *Work) Download() (err error) { err = DoDownload(work.DictName, work.Service, work.Version, work.Depend, work.Mode, work.Source, work.DeployPath, work.ShardSeq) if err != nil { logex.Warningf("download error, failed to download %s, dir is %s, error is (+%v)", work.Source, work.DeployPath, err) return } if work.Service == "" { err = UnTar(work.DictName, work.Service, work.Version, work.Depend, work.Source, work.DeployPath, work.ShardSeq) if err == nil { dataPath := path.Join(work.DeployPath, "data") // remove all old links if work.Mode == "base" || len(work.RollbackInfo) != 0 { cmd := fmt.Sprintf("ls -l %s | grep -E 'data.|index.' | awk '{print $9}'", dataPath) stdout, _, err := RetryCmd(cmd, RETRY_TIMES) if err == nil && stdout != "" { fileNameLi := strings.Split(strings.TrimSpace(stdout), "\n") for _, file := range fileNameLi { err = os.Remove(path.Join(dataPath, file)) logex.Debugf("os.Remove(%s) error (%+v) ", path.Join(dataPath, file), err) } } } // create symbolic link to the version rollbacked err = CreateSymlink(work.DictName, work.Service, work.Version, work.Depend, dataPath, work.DeployPath, work.ShardSeq, len(strings.Split(work.Source, ";"))) } else { logex.Warningf("download error, failed to untar for %s, dir is %s, error is (+%v)", work.Source, work.DeployPath, err) } } if err == nil { // clear history data work.clearData() work.clearLink() } else { logex.Warningf("create symlink failed, error is (+%v)", err) } return } func (work *Work) clearData() (err error) { split := len(strings.Split(work.Source, ";")) downloadDirs, err := GetDownloadDirs(work.DictName, work.Service, work.Version, work.Depend, work.DeployPath, work.ShardSeq, split) if err != nil { logex.Warningf("clearData failed, error is (+%v)", err) return } for _, downloadDir := range downloadDirs { parentDir, _ := filepath.Split(downloadDir) cmd := fmt.Sprintf("ls -l %s | grep -v %s | awk '{print $9}'", parentDir, work.Depend) stdout, _, err := RetryCmd(cmd, RETRY_TIMES) if err != nil || stdout == "" || work.Service != "" { cmd = fmt.Sprintf("find %s -type d -ctime +1 -print | xargs -i rm -rf {}", parentDir) _, _, err = RetryCmd(cmd, RETRY_TIMES) } else { rmList := strings.Split(strings.TrimSpace(stdout), "\n") for i := 0; i < len(rmList); i++ { if rmList[i] == "" { continue } cmd = fmt.Sprintf("rm -rf %s/%s*", parentDir, rmList[i]) _, _, err = RetryCmd(cmd, RETRY_TIMES) } } } return } func (work *Work) clearPatchData() (err error) { if work.Service != "" { return } split := len(strings.Split(work.Source, ";")) downloadDirs, err := GetDownloadDirs(work.DictName, work.Service, work.Version, work.Depend, work.DeployPath, work.ShardSeq, split) if err != nil { logex.Warningf("clearPatchData failed, error is (+%v)", err) return } for _, downloadDir := range downloadDirs { parentDir, _ := filepath.Split(downloadDir) cmd := fmt.Sprintf("ls -l %s | grep %s_ | awk '{print $9}'", parentDir, work.Depend) stdout, _, err := RetryCmd(cmd, RETRY_TIMES) if err == nil && stdout != "" { rmList := strings.Split(strings.TrimSpace(stdout), "\n") for i := 0; i < len(rmList); i++ { if rmList[i] == "" { continue } cmd = fmt.Sprintf("rm -rf %s/%s*", parentDir, rmList[i]) _, _, err = RetryCmd(cmd, RETRY_TIMES) } } } return } func (work *Work) clearLink() (err error) { if work.Service != "" { return } split := len(strings.Split(work.Source, ";")) dataLinkDirs := GetDataLinkDirs(work.DictName, work.Service, work.Version, work.Depend, work.DeployPath, work.ShardSeq, split) for _, linkDir := range dataLinkDirs { parentDir, _ := filepath.Split(linkDir) cmd := fmt.Sprintf("ls -l %s | grep -v %s | awk '{print $9}'", parentDir, work.Depend) stdout, _, err := RetryCmd(cmd, RETRY_TIMES) if err != nil || stdout == "" { cmd = fmt.Sprintf("find %s -type d -ctime +1 -print | xargs -i rm -rf {}", parentDir) _, _, err = RetryCmd(cmd, RETRY_TIMES) } else { rmList := strings.Split(strings.TrimSpace(stdout), "\n") for i := 0; i < len(rmList); i++ { if rmList[i] == "" { continue } cmd = fmt.Sprintf("rm -rf %s/%s*", parentDir, rmList[i]) _, _, err = RetryCmd(cmd, RETRY_TIMES) } } } return } func (work *Work) clearPatchLink() (err error) { if work.Service != "" { return } split := len(strings.Split(work.Source, ";")) dataLinkDirs := GetDataLinkDirs(work.DictName, work.Service, work.Version, work.Depend, work.DeployPath, work.ShardSeq, split) for _, linkDir := range dataLinkDirs { parentDir, _ := filepath.Split(linkDir) cmd := fmt.Sprintf("ls -l %s | grep %s_ | awk '{print $9}'", parentDir, work.Depend) stdout, _, err := RetryCmd(cmd, RETRY_TIMES) if err == nil && stdout != "" { rmList := strings.Split(strings.TrimSpace(stdout), "\n") for i := 0; i < len(rmList); i++ { if rmList[i] == "" { continue } cmd = fmt.Sprintf("rm -rf %s/%s*", parentDir, rmList[i]) _, _, err = RetryCmd(cmd, RETRY_TIMES) } } } return } func UnTar(dictName, service, version, depend, source, deployPath string, shardSeq int) (err error) { sources := strings.Split(source, ";") downloadDirs, err := GetDownloadDirs(dictName, service, version, depend, deployPath, shardSeq, len(sources)) if err != nil { logex.Warningf("UnTar failed, error is (+%v)", err) return } for i := 0; i < len(sources); i++ { fileName := GetFileName(sources[i]) untarCmd := fmt.Sprintf("tar xvf %s -C %s", path.Join(downloadDirs[i], fileName), downloadDirs[i]) _, _, err = RetryCmd(untarCmd, RETRY_TIMES) } return } func CreateSymlink(dictName, service, version, depend, dataPath, deployPath string, shardSeq, split int) (err error) { downloadDirs, err := GetDownloadDirs(dictName, service, version, depend, deployPath, shardSeq, split) if err != nil { logex.Warningf("CreateSymlink failed, error is (+%v)", err) } for i, downloadDir := range downloadDirs { cmd := fmt.Sprintf("ls -l %s | grep -E 'data.|index.' | awk '{print $NF}'", downloadDir) stdout, _, err := RetryCmd(cmd, RETRY_TIMES) if err == nil && stdout != "" { fileNameLi := strings.Split(strings.TrimSpace(stdout), "\n") versionDir := getParentDir(version, depend) versionFile := path.Join(dataPath, "VERSION") dataSubPath := "" if split > 1 { dataSubPath = path.Join(dataPath, strconv.Itoa(i), versionDir) } else { dataSubPath = path.Join(dataPath, versionDir) } if err = os.MkdirAll(dataSubPath, 0755); err != nil { // return err logex.Warningf("os.Mkdir %s failed, err:[%v]", dataSubPath, err) } if dataSubPath != "" { cmd = fmt.Sprintf("find %s/.. -type d -ctime +5 -print | xargs -i rm -rf {}", dataSubPath) _, _, err = RetryCmd(cmd, RETRY_TIMES) } for _, file := range fileNameLi { dataLink := "" tempDataPath := "" if split > 1 { dataLink = path.Join(dataPath, strconv.Itoa(i), file) tempDataPath = path.Join(dataPath, strconv.Itoa(i)) } else { dataLink = path.Join(dataPath, file) tempDataPath = dataPath } cmd = fmt.Sprintf("rm -rf %s", dataLink) _, stderr, _ := RetryCmd(cmd, RETRY_TIMES) logex.Noticef("rm -rf %s, err:[%s]", dataLink, stderr) // create new symlink err = os.Symlink(path.Join(downloadDir, file), dataLink) logex.Noticef("os.Symlink %s %s return (%+v)", path.Join(downloadDir, file), dataLink, err) fmt.Println("os.Symlink: ", path.Join(downloadDir, file), dataLink, err) cmd = fmt.Sprintf("cp -d %s/index.* %s/", tempDataPath, dataSubPath) _, stderr, _ = RetryCmd(cmd, RETRY_TIMES) logex.Noticef("cp -d index Symlink to version dir %s, err:[%s]", dataSubPath, stderr) cmd = fmt.Sprintf("cp -d %s/data.* %s/", tempDataPath, dataSubPath) _, stderr, _ = RetryCmd(cmd, RETRY_TIMES) logex.Noticef("cp -d data Symlink to version dir %s, err:[%s]", dataSubPath, stderr) } cmd = fmt.Sprintf("echo %s > %s", versionDir, versionFile) if _, _, err = RetryCmd(cmd, RETRY_TIMES); err != nil { return err } } } return } func (work *Work) CheckToReload() bool { statusCmd := fmt.Sprintf("curl -s -d '{\"cmd\":\"status\"}' http://127.0.0.1:%s/ControlService/cmd", work.Port) stdout, _, _ := RetryCmd(statusCmd, RETRY_TIMES) var resp CubeResp json.Unmarshal([]byte(stdout), &resp) version := getParentDir(work.Version, work.Depend) if resp.CurVersion == "" && resp.BgVersion == "" { logex.Noticef("cube version empty") return true } if resp.CurVersion == version || resp.BgVersion == version { logex.Noticef("cube version has matched. version: %s", version) return false } return true } func (work *Work) Reload() (err error) { if work.Port == "" { err = errors.New("Reload with invalid port.") return } if !work.CheckToReload() { work.writeStatus("finish_reload", "succ") return } work.writeStatus("prepare_reload", "") var stdout string versionPath := getParentDir(work.Version, work.Depend) bgLoadCmd := "bg_load_base" if work.Mode == "delta" { bgLoadCmd = "bg_load_patch" } if work.ActiveVersionList == "" { work.ActiveVersionList = "[]" } for i := 0; i < RELOAD_RETRY_TIMES; i++ { reloadCmd := fmt.Sprintf("curl -o /dev/null -s -w %%{http_code} -d '{\"cmd\":\"%s\",\"version_path\":\"/%s\"}' http://127.0.0.1:%s/ControlService/cmd", bgLoadCmd, versionPath, work.Port) fmt.Println("reload: ", reloadCmd) stdout, _, _ = RetryCmd(reloadCmd, 1) fmt.Println("reload stdout: ", stdout) if strings.TrimSpace(stdout) == "200" { logex.Debugf("bg_load_base return succ") break } else { logex.Warning("bg_load_base return failed") time.Sleep(RELOAD_RETRY_INTERVAL_SECOND * time.Second) } } if strings.TrimSpace(stdout) == "200" { work.writeStatus("finish_reload", "succ") } else { work.writeStatus("finish_reload", "failed") err = errors.New("reload failed.") } return } func (work *Work) Clear() (err error) { work.Service = "" var stdout string var clearCmd string for i := 0; i < RETRY_TIMES; i++ { clearCmd = fmt.Sprintf("curl -o /dev/null -s -w %%{http_code} -d '{\"cmd\":\"clear\",\"table_name\":\"%s\"}' http://127.0.0.1:%s/NodeControlService/cmd", work.DictName, work.Port) fmt.Println("clear: ", clearCmd) stdout, _, _ = RetryCmd(clearCmd, 1) fmt.Println("clear stdout: ", stdout) if strings.TrimSpace(stdout) == "200" { logex.Debugf("clear return succ") break } else { logex.Warning("clear return failed") time.Sleep(RELOAD_RETRY_INTERVAL_SECOND * time.Second) } } if strings.TrimSpace(stdout) == "200" { err = work.writeStatus("succ", "") } else { err = work.writeStatus("failed", "") } return } func (work *Work) Check() (err error) { if work.Service != "" || work.VersionSign == "" { return } var dataLinkDirs []string split := len(strings.Split(work.Source, ";")) dataLinkDirs = GetDataLinkDirs(work.DictName, work.Service, work.Version, work.Depend, work.DeployPath, work.ShardSeq, split) if _, t_err := os.Stat(work.DeployPath); os.IsNotExist(t_err) { logex.Noticef("check DeployPath[%s] not exists.", work.DeployPath) return } check_succ := true for _, linkDir := range dataLinkDirs { parentDir, _ := filepath.Split(linkDir) cmd := fmt.Sprintf("ls -l %s | grep %s | awk '{print $9}' | grep -v data | grep -v index", parentDir, work.Depend) stdout, _, err := RetryCmd(cmd, RETRY_TIMES) if err != nil || stdout == "" { check_succ = false break } else { versionList := strings.Split(strings.TrimSpace(stdout), "\n") logex.Noticef("calc ver_sign for [%v]", versionList) var version_sign string var version string for i := 0; i < len(versionList); i++ { split_index := strings.Index(versionList[i], "_") if split_index > 0 && split_index < len(versionList[i]) { version = versionList[i][split_index+1:] } else { version = versionList[i] } if version_sign == "" { version_sign = fmt.Sprintf("%x", md5.Sum([]byte(version))) } else { version_sign = fmt.Sprintf("%x", md5.Sum([]byte(version_sign))) } } if version_sign != work.VersionSign { logex.Warningf("version_sign check failed. real[%v] expect[%v]", version_sign, work.VersionSign) check_succ = false break } } } if !check_succ { work.clearPatchData() work.clearPatchLink() master_host, master_port, _ := GetMaster(work.MasterAddress) cmd := fmt.Sprintf("cd %s && export STRATEGY_DIR=%s && ./downloader -h %s -p %s -d %s -s %d", work.DeployPath, work.DeployPath, master_host, master_port, work.DictName, work.ShardSeq) _, _, err = RetryCmd(cmd, RETRY_TIMES) } return } func (work *Work) Enable() (err error) { if work.Port == "" { err = errors.New("Enable with invalid port") return } var stdout string var cmd string versionPath := getParentDir(work.Version, work.Depend) for i := 0; i < RELOAD_RETRY_TIMES; i++ { if work.Service != "" { cmd = fmt.Sprintf("curl -o /dev/null -s -w %%{http_code} -d '{\"cmd\":\"reload_model\",\"version\":\"%s-%s\",\"dict_name\":\"%s\"}' http://127.0.0.1:%s/ControlService/cmd", versionPath, work.DictName, work.DictName, work.Port) } else { cmd = fmt.Sprintf("curl -o /dev/null -s -w %%{http_code} -d '{\"cmd\":\"enable\",\"version\":\"%s\"}' http://127.0.0.1:%s/ControlService/cmd", versionPath, work.Port) } stdout, _, _ = RetryCmd(cmd, 1) if strings.TrimSpace(stdout) == "200" { logex.Debugf("enable return succ for %s, work dir is %s", work.Source, work.DeployPath) break } else { logex.Warningf("enable return failed for %s, work dir is %s, error is (%+v)", work.Source, work.DeployPath, err) time.Sleep(RELOAD_RETRY_INTERVAL_SECOND * time.Second) } } if strings.TrimSpace(stdout) == "200" { err = work.writeStatus("succ", "") } else { err = work.writeStatus("failed", "") } if work.Service == "" { cmd = fmt.Sprintf("curl -o /dev/null -s -w %%{http_code} -d '{\"cmd\":\"bg_unload\"}' http://127.0.0.1:%s/ControlService/cmd", work.Port) stdout, _, _ = RetryCmd(cmd, RETRY_TIMES) if strings.TrimSpace(stdout) == "200" { logex.Debugf("unload return succ") } else { logex.Warning("unload return failed") } } RemoveStateFile(work.DictName, work.ShardSeq, work.Service) return } func (work *Work) Pop() (err error) { var stdout string var cmd string if work.ActiveVersionList == "" { work.ActiveVersionList = "[]" } for i := 0; i < RELOAD_RETRY_TIMES; i++ { cmd = fmt.Sprintf("curl -o /dev/null -s -w %%{http_code} -d '{\"cmd\":\"pop\",\"table_name\":\"%s\",\"active_versions\":%v}' http://127.0.0.1:%s/NodeControlService/cmd", work.DictName, work.ActiveVersionList, work.Port) fmt.Println("pop: ", cmd) stdout, _, _ = RetryCmd(cmd, 1) fmt.Println("pop stdout: ", stdout) if strings.TrimSpace(stdout) == "200" { logex.Debugf("pop return succ") break } else { logex.Warning("pop return failed") time.Sleep(RELOAD_RETRY_INTERVAL_SECOND * time.Second) } } if strings.TrimSpace(stdout) == "200" { err = work.writeStatus("succ", "") } else { err = work.writeStatus("failed", "") } RemoveStateFile(work.DictName, work.ShardSeq, work.Service) return } func writeStateFile(dictName string, shardSeq int, service, state string) { stateFile := fmt.Sprintf(".state_%s_%d", dictName, shardSeq) if service != "" { stateFile = stateFile + "_" + service } cmd := fmt.Sprintf("echo '%s' > %s/state/%s", state, Dir, stateFile) if _, _, err := RetryCmd(cmd, RETRY_TIMES); err != nil { logex.Warningf("%s error (%+v)", cmd, err) } } func RemoveStateFile(dictName string, shardSeq int, service string) { stateFile := fmt.Sprintf(".state_%s_%d", dictName, shardSeq) if service != "" { stateFile = stateFile + "_" + service } cmd := fmt.Sprintf("rm -f %s/state/%s", Dir, stateFile) if _, _, err := RetryCmd(cmd, RETRY_TIMES); err != nil { logex.Warningf("%s error (%+v)", cmd, err) } } func (work *Work) writeStatus(status string, finishStatus string) (err error) { work.Status = status work.FinishStatus = finishStatus state, _ := json.Marshal(work) writeStateFile(work.DictName, work.ShardSeq, work.Service, string(state)) return } func DoDownloadIndividual(source, downloadDir string, isService bool, timeOut int, ch chan error, wg *sync.WaitGroup) { err := errors.New("DoDownloadIndividual start") for i := 0; i < RETRY_TIMES; i++ { err = FtpDownload(source, downloadDir, timeOut) if err == nil { logex.Debugf("download %s to %s succ", source, downloadDir) if !isService { err = FtpDownload(source+".md5", downloadDir, timeOut) } } else { logex.Warningf("download error , source %s, downloadDir %s, err (%+v)", source, downloadDir, err) continue } if err == nil && isService { // touch download_succ file cmd := fmt.Sprintf("touch %s", path.Join(downloadDir, DOWNLOAD_DONE_MARK_FILE)) RetryCmd(cmd, RETRY_TIMES) break } // download md5 file succ, md5check if err == nil { // md5sum -c fileName := GetFileName(source) err = checkMd5(path.Join(downloadDir, fileName), path.Join(downloadDir, fileName+".md5")) logex.Warningf("md5sum check %s %s return (%+v)", path.Join(downloadDir, fileName), path.Join(downloadDir, fileName+".md5"), err) if err == nil { // touch download_succ file cmd := fmt.Sprintf("touch %s", path.Join(downloadDir, DOWNLOAD_DONE_MARK_FILE)) RetryCmd(cmd, RETRY_TIMES) logex.Debugf("md5sum ok, source is %s, dir is %s", source, downloadDir) break } else { logex.Warningf("md5sum error, source is %s, dir is %s", source, downloadDir) continue } } else { logex.Warningf("download %s return (%+v)", source+".md5", err) continue } } ch <- err wg.Done() } func checkSources(source string) ([]string, error) { sources := strings.Split(source, ";") for i := 0; i < len(sources); i++ { if sources[i] == "" || !strings.HasPrefix(sources[i], "ftp://") { return sources, errors.New("Invalid sources") } } return sources, nil } func DoDownload(dictName, service, version, depend, mode, source, deployPath string, shardSeq int) (err error) { sources, err := checkSources(source) if err != nil { logex.Warningf("checkSources %s return (%+v)", source, err) return } downloadDirs, err := GetDownloadDirs(dictName, service, version, depend, deployPath, shardSeq, len(sources)) if err != nil { logex.Warningf("GetDownloadDirs %s return (%+v)", source, err) return } version_suffix := "" if service != "" { version_suffix = version_suffix + "-" + dictName } if !checkToDownload(downloadDirs) { cmd := fmt.Sprintf("cd %s/cube_data && echo %s > VERSION && cp VERSION VERSION-%s", deployPath, getParentDir(version, depend)+version_suffix, dictName) _, _, err = RetryCmd(cmd, RETRY_TIMES) logex.Debugf("echo VERSION cmd:[%s] err:[%v]", cmd, err) return } ch := make(chan error, len(sources)) wg := sync.WaitGroup{} j := 0 numCo := 0 for ; j < len(sources); j++ { if numCo >= MAX_DOWN_CO { wg.Wait() logex.Noticef("DoDownload co down.") numCo = 0 } numCo += 1 wg.Add(1) time.Sleep(2000 * time.Millisecond) timeOut := 900 if mode == "base" { timeOut = 3600 } go DoDownloadIndividual(sources[j], downloadDirs[j], (service != ""), timeOut, ch, &wg) } wg.Wait() close(ch) for err = range ch { if err != nil { return } } cmd := fmt.Sprintf("cd %s/cube_data && echo %s > VERSION && cp VERSION VERSION-%s", deployPath, getParentDir(version, depend)+version_suffix, dictName) _, _, err = RetryCmd(cmd, RETRY_TIMES) logex.Debugf("echo VERSION cmd:[%s] err:[%v]", cmd, err) return } func FtpDownload(source string, dest string, timeOut int) (err error) { dlCmd := fmt.Sprintf("wget --quiet --level=100 -P %s %s --limit-rate=10240k", dest, source) fmt.Println(dlCmd) _, _, err = RetryCmdWithSleep(dlCmd, RETRY_TIMES) return } func checkToDownload(downloadDirs []string) bool { for _, v := range downloadDirs { if _, err := os.Stat(path.Join(v, DOWNLOAD_DONE_MARK_FILE)); err != nil { logex.Noticef("check [%v] not exists.", v) return true } } return false } // simple hash func getDownloadDisk(dictName string, shardSeq int) string { index := len(dictName) * shardSeq % len(disks) return disks[index] } func getParentDir(version string, depend string) (dir string) { if version == depend { dir = depend } else { dir = depend + "_" + version } return } func GetFileName(source string) (fileName string) { s := strings.Split(source, "/") fileName = s[len(s)-1] return } func checkMd5(file string, fileMd5 string) (err error) { md5Cmd := fmt.Sprintf("./scripts/md5_checker %s %s", file, fileMd5) _, _, err = pipeline.Run(exec.Command("/bin/sh", "-c", md5Cmd)) return } func RetryCmd(cmd string, retryTimes int) (stdoutStr string, stderrStr string, err error) { for i := 0; i < retryTimes; i++ { stdout, stderr, e := pipeline.Run(exec.Command("/bin/sh", "-c", cmd)) stdoutStr = stdout.String() stderrStr = stderr.String() err = e logex.Debugf("cmd %s, stdout: %s, stderr: %s, err: (%+v)", cmd, stdoutStr, stderrStr, err) if err == nil { break } } return } func RetryCmdWithSleep(cmd string, retryTimes int) (stdoutStr string, stderrStr string, err error) { for i := 0; i < retryTimes; i++ { stdout, stderr, e := pipeline.Run(exec.Command("/bin/sh", "-c", cmd)) stdoutStr = stdout.String() stderrStr = stderr.String() err = e logex.Debugf("cmd %s, stdout: %s, stderr: %s, err: (%+v)", cmd, stdoutStr, stderrStr, err) if err == nil { break } time.Sleep(10000 * time.Millisecond) } return }