package service import ( "context" "encoding/base64" "encoding/json" "fmt" "io" "os" "os/exec" "path/filepath" "sort" "strconv" "strings" "sync" "syscall" "time" "unicode/utf8" "github.com/pkg/errors" "github.com/1Panel-dev/1Panel/backend/app/dto" "github.com/1Panel-dev/1Panel/backend/buserr" "github.com/1Panel-dev/1Panel/backend/constant" "github.com/1Panel-dev/1Panel/backend/global" "github.com/1Panel-dev/1Panel/backend/utils/cmd" "github.com/1Panel-dev/1Panel/backend/utils/common" "github.com/1Panel-dev/1Panel/backend/utils/docker" "github.com/docker/docker/api/types" "github.com/docker/docker/api/types/container" "github.com/docker/docker/api/types/filters" "github.com/docker/docker/api/types/image" "github.com/docker/docker/api/types/mount" "github.com/docker/docker/api/types/network" "github.com/docker/docker/api/types/registry" "github.com/docker/docker/client" "github.com/docker/go-connections/nat" "github.com/gorilla/websocket" v1 "github.com/opencontainers/image-spec/specs-go/v1" "github.com/shirou/gopsutil/v3/cpu" "github.com/shirou/gopsutil/v3/mem" ) type ContainerService struct{} type IContainerService interface { Page(req dto.PageContainer) (int64, interface{}, error) List() ([]string, error) PageNetwork(req dto.SearchWithPage) (int64, interface{}, error) ListNetwork() ([]dto.Options, error) PageVolume(req dto.SearchWithPage) (int64, interface{}, error) ListVolume() ([]dto.Options, error) PageCompose(req dto.SearchWithPage) (int64, interface{}, error) CreateCompose(req dto.ComposeCreate) (string, error) ComposeOperation(req dto.ComposeOperation) error ContainerCreate(req dto.ContainerOperate) error ContainerUpdate(req dto.ContainerOperate) error ContainerUpgrade(req dto.ContainerUpgrade) error ContainerInfo(req dto.OperationWithName) (*dto.ContainerOperate, error) ContainerListStats() ([]dto.ContainerListStats, error) LoadResourceLimit() (*dto.ResourceLimit, error) ContainerRename(req dto.ContainerRename) error ContainerLogClean(req dto.OperationWithName) error ContainerOperation(req dto.ContainerOperation) error ContainerLogs(wsConn *websocket.Conn, containerType, container, since, tail string, follow bool) error ContainerStats(id string) (*dto.ContainerStats, error) Inspect(req dto.InspectReq) (string, error) DeleteNetwork(req dto.BatchDelete) error CreateNetwork(req dto.NetworkCreate) error DeleteVolume(req dto.BatchDelete) error CreateVolume(req dto.VolumeCreate) error TestCompose(req dto.ComposeCreate) (bool, error) ComposeUpdate(req dto.ComposeUpdate) error Prune(req dto.ContainerPrune) (dto.ContainerPruneReport, error) LoadContainerLogs(req dto.OperationWithNameAndType) string } func NewIContainerService() IContainerService { return &ContainerService{} } func (u *ContainerService) Page(req dto.PageContainer) (int64, interface{}, error) { var ( records []types.Container list []types.Container ) client, err := docker.NewDockerClient() if err != nil { return 0, nil, err } defer client.Close() options := container.ListOptions{ All: true, } if len(req.Filters) != 0 { options.Filters = filters.NewArgs() options.Filters.Add("label", req.Filters) } containers, err := client.ContainerList(context.Background(), options) if err != nil { return 0, nil, err } if req.ExcludeAppStore { for _, item := range containers { if created, ok := item.Labels[composeCreatedBy]; ok && created == "Apps" { continue } list = append(list, item) } } else { list = containers } if len(req.Name) != 0 { length, count := len(list), 0 for count < length { if !strings.Contains(list[count].Names[0][1:], req.Name) { list = append(list[:count], list[(count+1):]...) length-- } else { count++ } } } if req.State != "all" { length, count := len(list), 0 for count < length { if list[count].State != req.State { list = append(list[:count], list[(count+1):]...) length-- } else { count++ } } } switch req.OrderBy { case "name": sort.Slice(list, func(i, j int) bool { if req.Order == constant.OrderAsc { return list[i].Names[0][1:] < list[j].Names[0][1:] } return list[i].Names[0][1:] > list[j].Names[0][1:] }) case "state": sort.Slice(list, func(i, j int) bool { if req.Order == constant.OrderAsc { return list[i].State < list[j].State } return list[i].State > list[j].State }) default: sort.Slice(list, func(i, j int) bool { if req.Order == constant.OrderAsc { return list[i].Created < list[j].Created } return list[i].Created > list[j].Created }) } total, start, end := len(list), (req.Page-1)*req.PageSize, req.Page*req.PageSize if start > total { records = make([]types.Container, 0) } else { if end >= total { end = total } records = list[start:end] } backDatas := make([]dto.ContainerInfo, len(records)) for i := 0; i < len(records); i++ { item := records[i] IsFromCompose := false if _, ok := item.Labels[composeProjectLabel]; ok { IsFromCompose = true } IsFromApp := false if created, ok := item.Labels[composeCreatedBy]; ok && created == "Apps" { IsFromApp = true } ports := loadContainerPort(item.Ports) info := dto.ContainerInfo{ ContainerID: item.ID, CreateTime: time.Unix(item.Created, 0).Format("2006-01-02 15:04:05"), Name: item.Names[0][1:], ImageId: strings.Split(item.ImageID, ":")[1], ImageName: item.Image, State: item.State, RunTime: item.Status, Ports: ports, IsFromApp: IsFromApp, IsFromCompose: IsFromCompose, } install, _ := appInstallRepo.GetFirst(appInstallRepo.WithContainerName(info.Name)) if install.ID > 0 { info.AppInstallName = install.Name info.AppName = install.App.Name websites, _ := websiteRepo.GetBy(websiteRepo.WithAppInstallId(install.ID)) for _, website := range websites { info.Websites = append(info.Websites, website.PrimaryDomain) } } backDatas[i] = info if item.NetworkSettings != nil && len(item.NetworkSettings.Networks) > 0 { networks := make([]string, 0, len(item.NetworkSettings.Networks)) for key := range item.NetworkSettings.Networks { networks = append(networks, item.NetworkSettings.Networks[key].IPAddress) } sort.Strings(networks) backDatas[i].Network = networks } } return int64(total), backDatas, nil } func (u *ContainerService) List() ([]string, error) { client, err := docker.NewDockerClient() if err != nil { return nil, err } defer client.Close() containers, err := client.ContainerList(context.Background(), container.ListOptions{All: true}) if err != nil { return nil, err } var datas []string for _, container := range containers { for _, name := range container.Names { if len(name) != 0 { datas = append(datas, strings.TrimPrefix(name, "/")) } } } return datas, nil } func (u *ContainerService) ContainerListStats() ([]dto.ContainerListStats, error) { client, err := docker.NewDockerClient() if err != nil { return nil, err } defer client.Close() list, err := client.ContainerList(context.Background(), container.ListOptions{All: true}) if err != nil { return nil, err } var datas []dto.ContainerListStats var wg sync.WaitGroup wg.Add(len(list)) for i := 0; i < len(list); i++ { go func(item types.Container) { datas = append(datas, loadCpuAndMem(client, item.ID)) wg.Done() }(list[i]) } wg.Wait() return datas, nil } func (u *ContainerService) Inspect(req dto.InspectReq) (string, error) { client, err := docker.NewDockerClient() if err != nil { return "", err } defer client.Close() var inspectInfo interface{} switch req.Type { case "container": inspectInfo, err = client.ContainerInspect(context.Background(), req.ID) case "image": inspectInfo, _, err = client.ImageInspectWithRaw(context.Background(), req.ID) case "network": inspectInfo, err = client.NetworkInspect(context.TODO(), req.ID, types.NetworkInspectOptions{}) case "volume": inspectInfo, err = client.VolumeInspect(context.TODO(), req.ID) } if err != nil { return "", err } bytes, err := json.Marshal(inspectInfo) if err != nil { return "", err } return string(bytes), nil } func (u *ContainerService) Prune(req dto.ContainerPrune) (dto.ContainerPruneReport, error) { report := dto.ContainerPruneReport{} client, err := docker.NewDockerClient() if err != nil { return report, err } defer client.Close() pruneFilters := filters.NewArgs() if req.WithTagAll { pruneFilters.Add("dangling", "false") if req.PruneType != "image" { pruneFilters.Add("until", "24h") } } switch req.PruneType { case "container": rep, err := client.ContainersPrune(context.Background(), pruneFilters) if err != nil { return report, err } report.DeletedNumber = len(rep.ContainersDeleted) report.SpaceReclaimed = int(rep.SpaceReclaimed) case "image": rep, err := client.ImagesPrune(context.Background(), pruneFilters) if err != nil { return report, err } report.DeletedNumber = len(rep.ImagesDeleted) report.SpaceReclaimed = int(rep.SpaceReclaimed) case "network": rep, err := client.NetworksPrune(context.Background(), pruneFilters) if err != nil { return report, err } report.DeletedNumber = len(rep.NetworksDeleted) case "volume": versions, err := client.ServerVersion(context.Background()) if err != nil { return report, err } if common.ComparePanelVersion(versions.APIVersion, "1.42") { pruneFilters.Add("all", "true") } rep, err := client.VolumesPrune(context.Background(), pruneFilters) if err != nil { return report, err } report.DeletedNumber = len(rep.VolumesDeleted) report.SpaceReclaimed = int(rep.SpaceReclaimed) case "buildcache": opts := types.BuildCachePruneOptions{} opts.All = true rep, err := client.BuildCachePrune(context.Background(), opts) if err != nil { return report, err } report.DeletedNumber = len(rep.CachesDeleted) report.SpaceReclaimed = int(rep.SpaceReclaimed) } return report, nil } func (u *ContainerService) LoadResourceLimit() (*dto.ResourceLimit, error) { cpuCounts, err := cpu.Counts(true) if err != nil { return nil, fmt.Errorf("load cpu limit failed, err: %v", err) } memoryInfo, err := mem.VirtualMemory() if err != nil { return nil, fmt.Errorf("load memory limit failed, err: %v", err) } data := dto.ResourceLimit{ CPU: cpuCounts, Memory: memoryInfo.Total, } return &data, nil } func (u *ContainerService) ContainerCreate(req dto.ContainerOperate) error { client, err := docker.NewDockerClient() if err != nil { return err } defer client.Close() ctx := context.Background() newContainer, _ := client.ContainerInspect(ctx, req.Name) if newContainer.ContainerJSONBase != nil { return buserr.New(constant.ErrContainerName) } if !checkImageExist(client, req.Image) || req.ForcePull { if err := pullImages(ctx, client, req.Image); err != nil { if !req.ForcePull { return err } global.LOG.Errorf("force pull image %s failed, err: %v", req.Image, err) } } imageInfo, _, err := client.ImageInspectWithRaw(ctx, req.Image) if err != nil { return err } if len(req.Entrypoint) == 0 { req.Entrypoint = imageInfo.Config.Entrypoint } if len(req.Cmd) == 0 { req.Cmd = imageInfo.Config.Cmd } config, hostConf, networkConf, err := loadConfigInfo(true, req, nil) if err != nil { return err } global.LOG.Infof("new container info %s has been made, now start to create", req.Name) con, err := client.ContainerCreate(ctx, config, hostConf, networkConf, &v1.Platform{}, req.Name) if err != nil { _ = client.ContainerRemove(ctx, req.Name, container.RemoveOptions{RemoveVolumes: true, Force: true}) return err } global.LOG.Infof("create container %s successful! now check if the container is started and delete the container information if it is not.", req.Name) if err := client.ContainerStart(ctx, con.ID, container.StartOptions{}); err != nil { _ = client.ContainerRemove(ctx, req.Name, container.RemoveOptions{RemoveVolumes: true, Force: true}) return fmt.Errorf("create successful but start failed, err: %v", err) } return nil } func (u *ContainerService) ContainerInfo(req dto.OperationWithName) (*dto.ContainerOperate, error) { client, err := docker.NewDockerClient() if err != nil { return nil, err } defer client.Close() ctx := context.Background() oldContainer, err := client.ContainerInspect(ctx, req.Name) if err != nil { return nil, err } var data dto.ContainerOperate data.ContainerID = oldContainer.ID data.Name = strings.ReplaceAll(oldContainer.Name, "/", "") data.Image = oldContainer.Config.Image if oldContainer.NetworkSettings != nil { for network := range oldContainer.NetworkSettings.Networks { data.Network = network break } } networkSettings := oldContainer.NetworkSettings bridgeNetworkSettings := networkSettings.Networks[data.Network] if bridgeNetworkSettings.IPAMConfig != nil { ipv4Address := bridgeNetworkSettings.IPAMConfig.IPv4Address data.Ipv4 = ipv4Address ipv6Address := bridgeNetworkSettings.IPAMConfig.IPv6Address data.Ipv6 = ipv6Address } else { data.Ipv4 = bridgeNetworkSettings.IPAddress } data.Cmd = oldContainer.Config.Cmd data.OpenStdin = oldContainer.Config.OpenStdin data.Tty = oldContainer.Config.Tty data.Entrypoint = oldContainer.Config.Entrypoint data.Env = oldContainer.Config.Env data.CPUShares = oldContainer.HostConfig.CPUShares for key, val := range oldContainer.Config.Labels { data.Labels = append(data.Labels, fmt.Sprintf("%s=%s", key, val)) } for key, val := range oldContainer.HostConfig.PortBindings { var itemPort dto.PortHelper if !strings.Contains(string(key), "/") { continue } itemPort.ContainerPort = strings.Split(string(key), "/")[0] itemPort.Protocol = strings.Split(string(key), "/")[1] for _, binds := range val { itemPort.HostIP = binds.HostIP itemPort.HostPort = binds.HostPort data.ExposedPorts = append(data.ExposedPorts, itemPort) } } data.AutoRemove = oldContainer.HostConfig.AutoRemove data.Privileged = oldContainer.HostConfig.Privileged data.PublishAllPorts = oldContainer.HostConfig.PublishAllPorts data.RestartPolicy = string(oldContainer.HostConfig.RestartPolicy.Name) if oldContainer.HostConfig.NanoCPUs != 0 { data.NanoCPUs = float64(oldContainer.HostConfig.NanoCPUs) / 1000000000 } if oldContainer.HostConfig.Memory != 0 { data.Memory = float64(oldContainer.HostConfig.Memory) / 1024 / 1024 } data.Volumes = loadVolumeBinds(oldContainer.Mounts) return &data, nil } func (u *ContainerService) ContainerUpdate(req dto.ContainerOperate) error { client, err := docker.NewDockerClient() if err != nil { return err } defer client.Close() ctx := context.Background() newContainer, _ := client.ContainerInspect(ctx, req.Name) if newContainer.ContainerJSONBase != nil && newContainer.ID != req.ContainerID { return buserr.New(constant.ErrContainerName) } oldContainer, err := client.ContainerInspect(ctx, req.ContainerID) if err != nil { return err } if !checkImageExist(client, req.Image) || req.ForcePull { if err := pullImages(ctx, client, req.Image); err != nil { if !req.ForcePull { return err } return fmt.Errorf("pull image %s failed, err: %v", req.Image, err) } } if err := client.ContainerRemove(ctx, req.ContainerID, container.RemoveOptions{Force: true}); err != nil { return err } config, hostConf, networkConf, err := loadConfigInfo(false, req, &oldContainer) if err != nil { reCreateAfterUpdate(req.Name, client, oldContainer.Config, oldContainer.HostConfig, oldContainer.NetworkSettings) return err } global.LOG.Infof("new container info %s has been update, now start to recreate", req.Name) con, err := client.ContainerCreate(ctx, config, hostConf, networkConf, &v1.Platform{}, req.Name) if err != nil { reCreateAfterUpdate(req.Name, client, oldContainer.Config, oldContainer.HostConfig, oldContainer.NetworkSettings) return fmt.Errorf("update container failed, err: %v", err) } global.LOG.Infof("update container %s successful! now check if the container is started.", req.Name) if err := client.ContainerStart(ctx, con.ID, container.StartOptions{}); err != nil { return fmt.Errorf("update successful but start failed, err: %v", err) } return nil } func (u *ContainerService) ContainerUpgrade(req dto.ContainerUpgrade) error { client, err := docker.NewDockerClient() if err != nil { return err } defer client.Close() ctx := context.Background() oldContainer, err := client.ContainerInspect(ctx, req.Name) if err != nil { return err } if !checkImageExist(client, req.Image) || req.ForcePull { if err := pullImages(ctx, client, req.Image); err != nil { if !req.ForcePull { return err } return fmt.Errorf("pull image %s failed, err: %v", req.Image, err) } } config := oldContainer.Config config.Image = req.Image hostConf := oldContainer.HostConfig var networkConf network.NetworkingConfig if oldContainer.NetworkSettings != nil { for networkKey := range oldContainer.NetworkSettings.Networks { networkConf.EndpointsConfig = map[string]*network.EndpointSettings{networkKey: {}} break } } if err := client.ContainerRemove(ctx, req.Name, container.RemoveOptions{Force: true}); err != nil { return err } global.LOG.Infof("new container info %s has been update, now start to recreate", req.Name) con, err := client.ContainerCreate(ctx, config, hostConf, &networkConf, &v1.Platform{}, req.Name) if err != nil { reCreateAfterUpdate(req.Name, client, oldContainer.Config, oldContainer.HostConfig, oldContainer.NetworkSettings) return fmt.Errorf("upgrade container failed, err: %v", err) } global.LOG.Infof("upgrade container %s successful! now check if the container is started.", req.Name) if err := client.ContainerStart(ctx, con.ID, container.StartOptions{}); err != nil { return fmt.Errorf("upgrade successful but start failed, err: %v", err) } return nil } func (u *ContainerService) ContainerRename(req dto.ContainerRename) error { ctx := context.Background() client, err := docker.NewDockerClient() if err != nil { return err } defer client.Close() newContainer, _ := client.ContainerInspect(ctx, req.NewName) if newContainer.ContainerJSONBase != nil { return buserr.New(constant.ErrContainerName) } return client.ContainerRename(ctx, req.Name, req.NewName) } func (u *ContainerService) ContainerOperation(req dto.ContainerOperation) error { var err error ctx := context.Background() client, err := docker.NewDockerClient() if err != nil { return err } defer client.Close() for _, item := range req.Names { global.LOG.Infof("start container %s operation %s", item, req.Operation) switch req.Operation { case constant.ContainerOpStart: err = client.ContainerStart(ctx, item, container.StartOptions{}) case constant.ContainerOpStop: err = client.ContainerStop(ctx, item, container.StopOptions{}) case constant.ContainerOpRestart: err = client.ContainerRestart(ctx, item, container.StopOptions{}) case constant.ContainerOpKill: err = client.ContainerKill(ctx, item, "SIGKILL") case constant.ContainerOpPause: err = client.ContainerPause(ctx, item) case constant.ContainerOpUnpause: err = client.ContainerUnpause(ctx, item) case constant.ContainerOpRemove: err = client.ContainerRemove(ctx, item, container.RemoveOptions{RemoveVolumes: true, Force: true}) } } return err } func (u *ContainerService) ContainerLogClean(req dto.OperationWithName) error { client, err := docker.NewDockerClient() if err != nil { return err } defer client.Close() ctx := context.Background() containerItem, err := client.ContainerInspect(ctx, req.Name) if err != nil { return err } if err := client.ContainerStop(ctx, containerItem.ID, container.StopOptions{}); err != nil { return err } file, err := os.OpenFile(containerItem.LogPath, os.O_RDWR|os.O_CREATE, 0666) if err != nil { return err } defer file.Close() if err = file.Truncate(0); err != nil { return err } _, _ = file.Seek(0, 0) files, _ := filepath.Glob(fmt.Sprintf("%s.*", containerItem.LogPath)) for _, file := range files { _ = os.Remove(file) } if err := client.ContainerStart(ctx, containerItem.ID, container.StartOptions{}); err != nil { return err } return nil } func (u *ContainerService) ContainerLogs(wsConn *websocket.Conn, containerType, container, since, tail string, follow bool) error { defer func() { wsConn.Close() }() if cmd.CheckIllegal(container, since, tail) { return buserr.New(constant.ErrCmdIllegal) } commandName := "docker" commandArg := []string{"logs", container} if containerType == "compose" { commandName = "docker-compose" commandArg = []string{"-f", container, "logs"} } if tail != "0" { commandArg = append(commandArg, "--tail") commandArg = append(commandArg, tail) } if since != "all" { commandArg = append(commandArg, "--since") commandArg = append(commandArg, since) } if follow { commandArg = append(commandArg, "-f") } if !follow { cmd := exec.Command(commandName, commandArg...) cmd.Stderr = cmd.Stdout stdout, _ := cmd.CombinedOutput() if !utf8.Valid(stdout) { return errors.New("invalid utf8") } if err := wsConn.WriteMessage(websocket.TextMessage, stdout); err != nil { global.LOG.Errorf("send message with log to ws failed, err: %v", err) } return nil } cmd := exec.Command(commandName, commandArg...) stdout, err := cmd.StdoutPipe() if err != nil { _ = cmd.Process.Signal(syscall.SIGTERM) return err } cmd.Stderr = cmd.Stdout if err := cmd.Start(); err != nil { _ = cmd.Process.Signal(syscall.SIGTERM) return err } exitCh := make(chan struct{}) go func() { _, wsData, _ := wsConn.ReadMessage() if string(wsData) == "close conn" { _ = cmd.Process.Signal(syscall.SIGTERM) exitCh <- struct{}{} } }() go func() { buffer := make([]byte, 1024) for { select { case <-exitCh: return default: n, err := stdout.Read(buffer) if err != nil { if err == io.EOF { return } global.LOG.Errorf("read bytes from log failed, err: %v", err) return } if !utf8.Valid(buffer[:n]) { continue } if err = wsConn.WriteMessage(websocket.TextMessage, buffer[:n]); err != nil { global.LOG.Errorf("send message with log to ws failed, err: %v", err) return } } } }() _ = cmd.Wait() return nil } func (u *ContainerService) ContainerStats(id string) (*dto.ContainerStats, error) { client, err := docker.NewDockerClient() if err != nil { return nil, err } defer client.Close() res, err := client.ContainerStats(context.TODO(), id, false) if err != nil { return nil, err } defer res.Body.Close() body, err := io.ReadAll(res.Body) if err != nil { res.Body.Close() return nil, err } res.Body.Close() var stats *types.StatsJSON if err := json.Unmarshal(body, &stats); err != nil { return nil, err } var data dto.ContainerStats data.CPUPercent = calculateCPUPercentUnix(stats) data.IORead, data.IOWrite = calculateBlockIO(stats.BlkioStats) data.Memory = float64(stats.MemoryStats.Usage) / 1024 / 1024 if cache, ok := stats.MemoryStats.Stats["cache"]; ok { data.Cache = float64(cache) / 1024 / 1024 } data.NetworkRX, data.NetworkTX = calculateNetwork(stats.Networks) data.ShotTime = stats.Read return &data, nil } func (u *ContainerService) LoadContainerLogs(req dto.OperationWithNameAndType) string { filePath := "" if req.Type == "compose-detail" { cli, err := docker.NewDockerClient() if err != nil { return "" } defer cli.Close() options := container.ListOptions{All: true} options.Filters = filters.NewArgs() options.Filters.Add("label", fmt.Sprintf("%s=%s", composeProjectLabel, req.Name)) containers, err := cli.ContainerList(context.Background(), options) if err != nil { return "" } for _, container := range containers { config := container.Labels[composeConfigLabel] workdir := container.Labels[composeWorkdirLabel] if len(config) != 0 && len(workdir) != 0 && strings.Contains(config, workdir) { filePath = config break } else { filePath = workdir break } } } if _, err := os.Stat(filePath); err != nil { return "" } content, err := os.ReadFile(filePath) if err != nil { return "" } return string(content) } func stringsToMap(list []string) map[string]string { var labelMap = make(map[string]string) for _, label := range list { if strings.Contains(label, "=") { sps := strings.SplitN(label, "=", 2) labelMap[sps[0]] = sps[1] } } return labelMap } func calculateCPUPercentUnix(stats *types.StatsJSON) float64 { cpuPercent := 0.0 cpuDelta := float64(stats.CPUStats.CPUUsage.TotalUsage) - float64(stats.PreCPUStats.CPUUsage.TotalUsage) systemDelta := float64(stats.CPUStats.SystemUsage) - float64(stats.PreCPUStats.SystemUsage) if systemDelta > 0.0 && cpuDelta > 0.0 { cpuPercent = (cpuDelta / systemDelta) * 100.0 if len(stats.CPUStats.CPUUsage.PercpuUsage) != 0 { cpuPercent = cpuPercent * float64(len(stats.CPUStats.CPUUsage.PercpuUsage)) } } return cpuPercent } func calculateMemPercentUnix(memStats types.MemoryStats) float64 { memPercent := 0.0 memUsage := float64(memStats.Usage) memLimit := float64(memStats.Limit) if memUsage > 0.0 && memLimit > 0.0 { memPercent = (memUsage / memLimit) * 100.0 } return memPercent } func calculateBlockIO(blkio types.BlkioStats) (blkRead float64, blkWrite float64) { for _, bioEntry := range blkio.IoServiceBytesRecursive { switch strings.ToLower(bioEntry.Op) { case "read": blkRead = (blkRead + float64(bioEntry.Value)) / 1024 / 1024 case "write": blkWrite = (blkWrite + float64(bioEntry.Value)) / 1024 / 1024 } } return } func calculateNetwork(network map[string]types.NetworkStats) (float64, float64) { var rx, tx float64 for _, v := range network { rx += float64(v.RxBytes) / 1024 tx += float64(v.TxBytes) / 1024 } return rx, tx } func checkImageExist(client *client.Client, imageItem string) bool { images, err := client.ImageList(context.Background(), image.ListOptions{}) if err != nil { fmt.Println(err) return false } for _, img := range images { for _, tag := range img.RepoTags { if tag == imageItem || tag == imageItem+":latest" { return true } } } return false } func pullImages(ctx context.Context, client *client.Client, image string) error { options := types.ImagePullOptions{} repos, _ := imageRepoRepo.List() if len(repos) != 0 { for _, repo := range repos { if strings.HasPrefix(image, repo.DownloadUrl) && repo.Auth { authConfig := registry.AuthConfig{ Username: repo.Username, Password: repo.Password, } encodedJSON, err := json.Marshal(authConfig) if err != nil { return err } authStr := base64.URLEncoding.EncodeToString(encodedJSON) options.RegistryAuth = authStr } } } out, err := client.ImagePull(ctx, image, options) if err != nil { return err } defer out.Close() _, err = io.Copy(io.Discard, out) if err != nil { return err } return nil } func loadCpuAndMem(client *client.Client, container string) dto.ContainerListStats { data := dto.ContainerListStats{ ContainerID: container, } res, err := client.ContainerStats(context.Background(), container, false) if err != nil { return data } defer res.Body.Close() body, err := io.ReadAll(res.Body) if err != nil { return data } var stats *types.StatsJSON if err := json.Unmarshal(body, &stats); err != nil { return data } data.CPUTotalUsage = stats.CPUStats.CPUUsage.TotalUsage - stats.PreCPUStats.CPUUsage.TotalUsage data.SystemUsage = stats.CPUStats.SystemUsage - stats.PreCPUStats.SystemUsage data.CPUPercent = calculateCPUPercentUnix(stats) data.PercpuUsage = len(stats.CPUStats.CPUUsage.PercpuUsage) data.MemoryCache = stats.MemoryStats.Stats["cache"] data.MemoryUsage = stats.MemoryStats.Usage data.MemoryLimit = stats.MemoryStats.Limit data.MemoryPercent = calculateMemPercentUnix(stats.MemoryStats) return data } func checkPortStats(ports []dto.PortHelper) (nat.PortMap, error) { portMap := make(nat.PortMap) if len(ports) == 0 { return portMap, nil } for _, port := range ports { if strings.Contains(port.ContainerPort, "-") { if !strings.Contains(port.HostPort, "-") { return portMap, buserr.New(constant.ErrPortRules) } hostStart, _ := strconv.Atoi(strings.Split(port.HostPort, "-")[0]) hostEnd, _ := strconv.Atoi(strings.Split(port.HostPort, "-")[1]) containerStart, _ := strconv.Atoi(strings.Split(port.ContainerPort, "-")[0]) containerEnd, _ := strconv.Atoi(strings.Split(port.ContainerPort, "-")[1]) if (hostEnd-hostStart) <= 0 || (containerEnd-containerStart) <= 0 { return portMap, buserr.New(constant.ErrPortRules) } if (containerEnd - containerStart) != (hostEnd - hostStart) { return portMap, buserr.New(constant.ErrPortRules) } for i := 0; i <= hostEnd-hostStart; i++ { bindItem := nat.PortBinding{HostPort: strconv.Itoa(hostStart + i), HostIP: port.HostIP} portMap[nat.Port(fmt.Sprintf("%d/%s", containerStart+i, port.Protocol))] = []nat.PortBinding{bindItem} } for i := hostStart; i <= hostEnd; i++ { if common.ScanPort(i) { return portMap, buserr.WithDetail(constant.ErrPortInUsed, i, nil) } } } else { portItem := 0 if strings.Contains(port.HostPort, "-") { portItem, _ = strconv.Atoi(strings.Split(port.HostPort, "-")[0]) } else { portItem, _ = strconv.Atoi(port.HostPort) } if common.ScanPort(portItem) { return portMap, buserr.WithDetail(constant.ErrPortInUsed, portItem, nil) } bindItem := nat.PortBinding{HostPort: strconv.Itoa(portItem), HostIP: port.HostIP} portMap[nat.Port(fmt.Sprintf("%s/%s", port.ContainerPort, port.Protocol))] = []nat.PortBinding{bindItem} } } return portMap, nil } func loadConfigInfo(isCreate bool, req dto.ContainerOperate, oldContainer *types.ContainerJSON) (*container.Config, *container.HostConfig, *network.NetworkingConfig, error) { var config container.Config var hostConf container.HostConfig if !isCreate { config = *oldContainer.Config hostConf = *oldContainer.HostConfig } var networkConf network.NetworkingConfig portMap, err := checkPortStats(req.ExposedPorts) if err != nil { return nil, nil, nil, err } exposed := make(nat.PortSet) for port := range portMap { exposed[port] = struct{}{} } config.Image = req.Image config.Cmd = req.Cmd config.Entrypoint = req.Entrypoint config.Env = req.Env config.Labels = stringsToMap(req.Labels) config.ExposedPorts = exposed config.OpenStdin = req.OpenStdin config.Tty = req.Tty if len(req.Network) != 0 { switch req.Network { case "host", "none", "bridge": hostConf.NetworkMode = container.NetworkMode(req.Network) } if req.Ipv4 != "" || req.Ipv6 != "" { networkConf.EndpointsConfig = map[string]*network.EndpointSettings{ req.Network: { IPAMConfig: &network.EndpointIPAMConfig{ IPv4Address: req.Ipv4, IPv6Address: req.Ipv6, }, }} } else { networkConf.EndpointsConfig = map[string]*network.EndpointSettings{req.Network: {}} } } else { if req.Ipv4 != "" || req.Ipv6 != "" { return nil, nil, nil, fmt.Errorf("Please set up the network") } networkConf = network.NetworkingConfig{} } hostConf.Privileged = req.Privileged hostConf.AutoRemove = req.AutoRemove hostConf.CPUShares = req.CPUShares hostConf.PublishAllPorts = req.PublishAllPorts hostConf.RestartPolicy = container.RestartPolicy{Name: container.RestartPolicyMode(req.RestartPolicy)} if req.RestartPolicy == "on-failure" { hostConf.RestartPolicy.MaximumRetryCount = 5 } hostConf.NanoCPUs = int64(req.NanoCPUs * 1000000000) hostConf.Memory = int64(req.Memory * 1024 * 1024) hostConf.MemorySwap = 0 hostConf.PortBindings = portMap hostConf.Binds = []string{} hostConf.Mounts = []mount.Mount{} config.Volumes = make(map[string]struct{}) for _, volume := range req.Volumes { if volume.Type == "volume" { hostConf.Mounts = append(hostConf.Mounts, mount.Mount{ Type: mount.Type(volume.Type), Source: volume.SourceDir, Target: volume.ContainerDir, }) config.Volumes[volume.ContainerDir] = struct{}{} } else { hostConf.Binds = append(hostConf.Binds, fmt.Sprintf("%s:%s:%s", volume.SourceDir, volume.ContainerDir, volume.Mode)) } } return &config, &hostConf, &networkConf, nil } func reCreateAfterUpdate(name string, client *client.Client, config *container.Config, hostConf *container.HostConfig, networkConf *types.NetworkSettings) { ctx := context.Background() var oldNetworkConf network.NetworkingConfig if networkConf != nil { for networkKey := range networkConf.Networks { oldNetworkConf.EndpointsConfig = map[string]*network.EndpointSettings{networkKey: {}} break } } oldContainer, err := client.ContainerCreate(ctx, config, hostConf, &oldNetworkConf, &v1.Platform{}, name) if err != nil { global.LOG.Errorf("recreate after container update failed, err: %v", err) return } if err := client.ContainerStart(ctx, oldContainer.ID, container.StartOptions{}); err != nil { global.LOG.Errorf("restart after container update failed, err: %v", err) } global.LOG.Errorf("recreate after container update successful") } func loadVolumeBinds(binds []types.MountPoint) []dto.VolumeHelper { var datas []dto.VolumeHelper for _, bind := range binds { var volumeItem dto.VolumeHelper volumeItem.Type = string(bind.Type) if bind.Type == "volume" { volumeItem.SourceDir = bind.Name } else { volumeItem.SourceDir = bind.Source } volumeItem.ContainerDir = bind.Destination volumeItem.Mode = "ro" if bind.RW { volumeItem.Mode = "rw" } datas = append(datas, volumeItem) } return datas } func loadContainerPort(ports []types.Port) []string { var ( ipv4Ports []types.Port ipv6Ports []types.Port ) for _, port := range ports { if strings.Contains(port.IP, ":") { ipv6Ports = append(ipv6Ports, port) } else { ipv4Ports = append(ipv4Ports, port) } } list1 := simplifyPort(ipv4Ports) list2 := simplifyPort(ipv6Ports) return append(list1, list2...) } func simplifyPort(ports []types.Port) []string { var datas []string if len(ports) == 0 { return datas } if len(ports) == 1 { ip := "" if len(ports[0].IP) != 0 { ip = ports[0].IP + ":" } itemPortStr := fmt.Sprintf("%s%v/%s", ip, ports[0].PrivatePort, ports[0].Type) if ports[0].PublicPort != 0 { itemPortStr = fmt.Sprintf("%s%v->%v/%s", ip, ports[0].PublicPort, ports[0].PrivatePort, ports[0].Type) } datas = append(datas, itemPortStr) return datas } sort.Slice(ports, func(i, j int) bool { return ports[i].PrivatePort < ports[j].PrivatePort }) start := ports[0] for i := 1; i < len(ports); i++ { if ports[i].PrivatePort != ports[i-1].PrivatePort+1 || ports[i].IP != ports[i-1].IP || ports[i].PublicPort != ports[i-1].PublicPort+1 || ports[i].Type != ports[i-1].Type { if ports[i-1].PrivatePort == start.PrivatePort { itemPortStr := fmt.Sprintf("%s:%v/%s", start.IP, start.PrivatePort, start.Type) if start.PublicPort != 0 { itemPortStr = fmt.Sprintf("%s:%v->%v/%s", start.IP, start.PublicPort, start.PrivatePort, start.Type) } if len(start.IP) == 0 { itemPortStr = strings.TrimPrefix(itemPortStr, ":") } datas = append(datas, itemPortStr) } else { itemPortStr := fmt.Sprintf("%s:%v-%v/%s", start.IP, start.PrivatePort, ports[i-1].PrivatePort, start.Type) if start.PublicPort != 0 { itemPortStr = fmt.Sprintf("%s:%v-%v->%v-%v/%s", start.IP, start.PublicPort, ports[i-1].PublicPort, start.PrivatePort, ports[i-1].PrivatePort, start.Type) } if len(start.IP) == 0 { itemPortStr = strings.TrimPrefix(itemPortStr, ":") } datas = append(datas, itemPortStr) } start = ports[i] } if i == len(ports)-1 { if ports[i].PrivatePort == start.PrivatePort { itemPortStr := fmt.Sprintf("%s:%v/%s", start.IP, start.PrivatePort, start.Type) if start.PublicPort != 0 { itemPortStr = fmt.Sprintf("%s:%v->%v/%s", start.IP, start.PublicPort, start.PrivatePort, start.Type) } if len(start.IP) == 0 { itemPortStr = strings.TrimPrefix(itemPortStr, ":") } datas = append(datas, itemPortStr) } else { itemPortStr := fmt.Sprintf("%s:%v-%v/%s", start.IP, start.PrivatePort, ports[i].PrivatePort, start.Type) if start.PublicPort != 0 { itemPortStr = fmt.Sprintf("%s:%v-%v->%v-%v/%s", start.IP, start.PublicPort, ports[i].PublicPort, start.PrivatePort, ports[i].PrivatePort, start.Type) } if len(start.IP) == 0 { itemPortStr = strings.TrimPrefix(itemPortStr, ":") } datas = append(datas, itemPortStr) } } } return datas }