/* Copyright 2020 Docker Compose CLI authors Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ package compose import ( "bytes" "context" "encoding/json" "errors" "fmt" "os" "path/filepath" "slices" "strconv" "strings" "github.com/compose-spec/compose-go/v2/paths" "github.com/compose-spec/compose-go/v2/types" cerrdefs "github.com/containerd/errdefs" "github.com/docker/docker/api/types/blkiodev" "github.com/docker/docker/api/types/container" "github.com/docker/docker/api/types/filters" "github.com/docker/docker/api/types/mount" "github.com/docker/docker/api/types/network" "github.com/docker/docker/api/types/strslice" "github.com/docker/docker/api/types/versions" volumetypes "github.com/docker/docker/api/types/volume" "github.com/docker/go-connections/nat" "github.com/sirupsen/logrus" cdi "tags.cncf.io/container-device-interface/pkg/parser" "github.com/docker/compose/v2/pkg/api" "github.com/docker/compose/v2/pkg/progress" "github.com/docker/compose/v2/pkg/prompt" ) type createOptions struct { AutoRemove bool AttachStdin bool UseNetworkAliases bool Labels types.Labels } type createConfigs struct { Container *container.Config Host *container.HostConfig Network *network.NetworkingConfig Links []string } func (s *composeService) Create(ctx context.Context, project *types.Project, createOpts api.CreateOptions) error { return progress.RunWithTitle(ctx, func(ctx context.Context) error { return s.create(ctx, project, createOpts) }, s.stdinfo(), "Creating") } func (s *composeService) create(ctx context.Context, project *types.Project, options api.CreateOptions) error { if len(options.Services) == 0 { options.Services = project.ServiceNames() } err := project.CheckContainerNameUnicity() if err != nil { return err } err = s.ensureImagesExists(ctx, project, options.Build, options.QuietPull) if err != nil { return err } prepareNetworks(project) networks, err := s.ensureNetworks(ctx, project) if err != nil { return err } volumes, err := s.ensureProjectVolumes(ctx, project, options.AssumeYes) if err != nil { return err } var observedState Containers observedState, err = s.getContainers(ctx, project.Name, oneOffInclude, true) if err != nil { return err } orphans := observedState.filter(isOrphaned(project)) if len(orphans) > 0 && !options.IgnoreOrphans { if options.RemoveOrphans { err := s.removeContainers(ctx, orphans, nil, nil, false) if err != nil { return err } } else { logrus.Warnf("Found orphan containers (%s) for this project. If "+ "you removed or renamed this service in your compose "+ "file, you can run this command with the "+ "--remove-orphans flag to clean it up.", orphans.names()) } } // Temporary implementation of use_api_socket until we get actual support inside docker engine project, err = s.useAPISocket(project) if err != nil { return err } return newConvergence(options.Services, observedState, networks, volumes, s).apply(ctx, project, options) } func prepareNetworks(project *types.Project) { for k, nw := range project.Networks { nw.CustomLabels = nw.CustomLabels. Add(api.NetworkLabel, k). Add(api.ProjectLabel, project.Name). Add(api.VersionLabel, api.ComposeVersion) project.Networks[k] = nw } } func (s *composeService) ensureNetworks(ctx context.Context, project *types.Project) (map[string]string, error) { networks := map[string]string{} for name, nw := range project.Networks { id, err := s.ensureNetwork(ctx, project, name, &nw) if err != nil { return nil, err } networks[name] = id project.Networks[name] = nw } return networks, nil } func (s *composeService) ensureProjectVolumes(ctx context.Context, project *types.Project, assumeYes bool) (map[string]string, error) { ids := map[string]string{} for k, volume := range project.Volumes { volume.CustomLabels = volume.CustomLabels.Add(api.VolumeLabel, k) volume.CustomLabels = volume.CustomLabels.Add(api.ProjectLabel, project.Name) volume.CustomLabels = volume.CustomLabels.Add(api.VersionLabel, api.ComposeVersion) id, err := s.ensureVolume(ctx, k, volume, project, assumeYes) if err != nil { return nil, err } ids[k] = id } return ids, nil } //nolint:gocyclo func (s *composeService) getCreateConfigs(ctx context.Context, p *types.Project, service types.ServiceConfig, number int, inherit *container.Summary, opts createOptions, ) (createConfigs, error) { labels, err := s.prepareLabels(opts.Labels, service, number) if err != nil { return createConfigs{}, err } var ( runCmd strslice.StrSlice entrypoint strslice.StrSlice ) if service.Command != nil { runCmd = strslice.StrSlice(service.Command) } if service.Entrypoint != nil { entrypoint = strslice.StrSlice(service.Entrypoint) } var ( tty = service.Tty stdinOpen = service.StdinOpen ) proxyConfig := types.MappingWithEquals(s.configFile().ParseProxyConfig(s.apiClient().DaemonHost(), nil)) env := proxyConfig.OverrideBy(service.Environment) var mainNwName string var mainNw *types.ServiceNetworkConfig if len(service.Networks) > 0 { mainNwName = service.NetworksByPriority()[0] mainNw = service.Networks[mainNwName] } macAddress, err := s.prepareContainerMACAddress(ctx, service, mainNw, mainNwName) if err != nil { return createConfigs{}, err } healthcheck, err := s.ToMobyHealthCheck(ctx, service.HealthCheck) if err != nil { return createConfigs{}, err } containerConfig := container.Config{ Hostname: service.Hostname, Domainname: service.DomainName, User: service.User, ExposedPorts: buildContainerPorts(service), Tty: tty, OpenStdin: stdinOpen, StdinOnce: opts.AttachStdin && stdinOpen, AttachStdin: opts.AttachStdin, AttachStderr: true, AttachStdout: true, Cmd: runCmd, Image: api.GetImageNameOrDefault(service, p.Name), WorkingDir: service.WorkingDir, Entrypoint: entrypoint, NetworkDisabled: service.NetworkMode == "disabled", MacAddress: macAddress, // Field is deprecated since API v1.44, but kept for compatibility with older API versions. Labels: labels, StopSignal: service.StopSignal, Env: ToMobyEnv(env), Healthcheck: healthcheck, StopTimeout: ToSeconds(service.StopGracePeriod), } // VOLUMES/MOUNTS/FILESYSTEMS tmpfs := map[string]string{} for _, t := range service.Tmpfs { if arr := strings.SplitN(t, ":", 2); len(arr) > 1 { tmpfs[arr[0]] = arr[1] } else { tmpfs[arr[0]] = "" } } binds, mounts, err := s.buildContainerVolumes(ctx, *p, service, inherit) if err != nil { return createConfigs{}, err } // NETWORKING links, err := s.getLinks(ctx, p.Name, service, number) if err != nil { return createConfigs{}, err } apiVersion, err := s.RuntimeVersion(ctx) if err != nil { return createConfigs{}, err } networkMode, networkingConfig, err := defaultNetworkSettings(p, service, number, links, opts.UseNetworkAliases, apiVersion) if err != nil { return createConfigs{}, err } portBindings := buildContainerPortBindingOptions(service) // MISC resources := getDeployResources(service) var logConfig container.LogConfig if service.Logging != nil { logConfig = container.LogConfig{ Type: service.Logging.Driver, Config: service.Logging.Options, } } securityOpts, unconfined, err := parseSecurityOpts(p, service.SecurityOpt) if err != nil { return createConfigs{}, err } hostConfig := container.HostConfig{ AutoRemove: opts.AutoRemove, Annotations: service.Annotations, Binds: binds, Mounts: mounts, CapAdd: strslice.StrSlice(service.CapAdd), CapDrop: strslice.StrSlice(service.CapDrop), NetworkMode: networkMode, Init: service.Init, IpcMode: container.IpcMode(service.Ipc), CgroupnsMode: container.CgroupnsMode(service.Cgroup), ReadonlyRootfs: service.ReadOnly, RestartPolicy: getRestartPolicy(service), ShmSize: int64(service.ShmSize), Sysctls: service.Sysctls, PortBindings: portBindings, Resources: resources, VolumeDriver: service.VolumeDriver, VolumesFrom: service.VolumesFrom, DNS: service.DNS, DNSSearch: service.DNSSearch, DNSOptions: service.DNSOpts, ExtraHosts: service.ExtraHosts.AsList(":"), SecurityOpt: securityOpts, StorageOpt: service.StorageOpt, UsernsMode: container.UsernsMode(service.UserNSMode), UTSMode: container.UTSMode(service.Uts), Privileged: service.Privileged, PidMode: container.PidMode(service.Pid), Tmpfs: tmpfs, Isolation: container.Isolation(service.Isolation), Runtime: service.Runtime, LogConfig: logConfig, GroupAdd: service.GroupAdd, Links: links, OomScoreAdj: int(service.OomScoreAdj), } if unconfined { hostConfig.MaskedPaths = []string{} hostConfig.ReadonlyPaths = []string{} } cfgs := createConfigs{ Container: &containerConfig, Host: &hostConfig, Network: networkingConfig, Links: links, } return cfgs, nil } // prepareContainerMACAddress handles the service-level mac_address field and the newer mac_address field added to service // network config. This newer field is only compatible with the Engine API v1.44 (and onwards), and this API version // also deprecates the container-wide mac_address field. Thus, this method will validate service config and mutate the // passed mainNw to provide backward-compatibility whenever possible. // // It returns the container-wide MAC address, but this value will be kept empty for newer API versions. func (s *composeService) prepareContainerMACAddress(ctx context.Context, service types.ServiceConfig, mainNw *types.ServiceNetworkConfig, nwName string) (string, error) { version, err := s.RuntimeVersion(ctx) if err != nil { return "", err } // Engine API 1.44 added support for endpoint-specific MAC address and now returns a warning when a MAC address is // set in container.Config. Thus, we have to jump through a number of hoops: // // 1. Top-level mac_address and main endpoint's MAC address should be the same ; // 2. If supported by the API, top-level mac_address should be migrated to the main endpoint and container.Config // should be kept empty ; // 3. Otherwise, the endpoint mac_address should be set in container.Config and no other endpoint-specific // mac_address can be specified. If that's the case, use top-level mac_address ; // // After that, if an endpoint mac_address is set, it's either user-defined or migrated by the code below, so // there's no need to check for API version in defaultNetworkSettings. macAddress := service.MacAddress if macAddress != "" && mainNw != nil && mainNw.MacAddress != "" && mainNw.MacAddress != macAddress { return "", fmt.Errorf("the service-level mac_address should have the same value as network %s", nwName) } if versions.GreaterThanOrEqualTo(version, "1.44") { if mainNw != nil && mainNw.MacAddress == "" { mainNw.MacAddress = macAddress } macAddress = "" } else if len(service.Networks) > 0 { var withMacAddress []string for nwName, nw := range service.Networks { if nw != nil && nw.MacAddress != "" { withMacAddress = append(withMacAddress, nwName) } } if len(withMacAddress) > 1 { return "", fmt.Errorf("a MAC address is specified for multiple networks (%s), but this feature requires Docker Engine v25 or later", strings.Join(withMacAddress, ", ")) } if mainNw != nil && mainNw.MacAddress != "" { macAddress = mainNw.MacAddress } } return macAddress, nil } func getAliases(project *types.Project, service types.ServiceConfig, serviceIndex int, cfg *types.ServiceNetworkConfig, useNetworkAliases bool) []string { aliases := []string{getContainerName(project.Name, service, serviceIndex)} if useNetworkAliases { aliases = append(aliases, service.Name) if cfg != nil { aliases = append(aliases, cfg.Aliases...) } } return aliases } func createEndpointSettings(p *types.Project, service types.ServiceConfig, serviceIndex int, networkKey string, links []string, useNetworkAliases bool) *network.EndpointSettings { const ifname = "com.docker.network.endpoint.ifname" config := service.Networks[networkKey] var ipam *network.EndpointIPAMConfig var ( ipv4Address string ipv6Address string macAddress string driverOpts types.Options gwPriority int ) if config != nil { ipv4Address = config.Ipv4Address ipv6Address = config.Ipv6Address ipam = &network.EndpointIPAMConfig{ IPv4Address: ipv4Address, IPv6Address: ipv6Address, LinkLocalIPs: config.LinkLocalIPs, } macAddress = config.MacAddress driverOpts = config.DriverOpts if config.InterfaceName != "" { if driverOpts == nil { driverOpts = map[string]string{} } if name, ok := driverOpts[ifname]; ok && name != config.InterfaceName { logrus.Warnf("ignoring services.%s.networks.%s.interface_name as %s driver_opts is already declared", service.Name, networkKey, ifname) } driverOpts[ifname] = config.InterfaceName } gwPriority = config.GatewayPriority } return &network.EndpointSettings{ Aliases: getAliases(p, service, serviceIndex, config, useNetworkAliases), Links: links, IPAddress: ipv4Address, IPv6Gateway: ipv6Address, IPAMConfig: ipam, MacAddress: macAddress, DriverOpts: driverOpts, GwPriority: gwPriority, } } // copy/pasted from https://github.com/docker/cli/blob/9de1b162f/cli/command/container/opts.go#L673-L697 + RelativePath // TODO find so way to share this code with docker/cli func parseSecurityOpts(p *types.Project, securityOpts []string) ([]string, bool, error) { var ( unconfined bool parsed []string ) for _, opt := range securityOpts { if opt == "systempaths=unconfined" { unconfined = true continue } con := strings.SplitN(opt, "=", 2) if len(con) == 1 && con[0] != "no-new-privileges" { if strings.Contains(opt, ":") { con = strings.SplitN(opt, ":", 2) } else { return securityOpts, false, fmt.Errorf("invalid security-opt: %q", opt) } } if con[0] == "seccomp" && con[1] != "unconfined" && con[1] != "builtin" { f, err := os.ReadFile(p.RelativePath(con[1])) if err != nil { return securityOpts, false, fmt.Errorf("opening seccomp profile (%s) failed: %w", con[1], err) } b := bytes.NewBuffer(nil) if err := json.Compact(b, f); err != nil { return securityOpts, false, fmt.Errorf("compacting json for seccomp profile (%s) failed: %w", con[1], err) } parsed = append(parsed, fmt.Sprintf("seccomp=%s", b.Bytes())) } else { parsed = append(parsed, opt) } } return parsed, unconfined, nil } func (s *composeService) prepareLabels(labels types.Labels, service types.ServiceConfig, number int) (map[string]string, error) { hash, err := ServiceHash(service) if err != nil { return nil, err } labels[api.ConfigHashLabel] = hash if number > 0 { // One-off containers are not indexed labels[api.ContainerNumberLabel] = strconv.Itoa(number) } var dependencies []string for s, d := range service.DependsOn { dependencies = append(dependencies, fmt.Sprintf("%s:%s:%t", s, d.Condition, d.Restart)) } labels[api.DependenciesLabel] = strings.Join(dependencies, ",") return labels, nil } // defaultNetworkSettings determines the container.NetworkMode and corresponding network.NetworkingConfig (nil if not applicable). func defaultNetworkSettings(project *types.Project, service types.ServiceConfig, serviceIndex int, links []string, useNetworkAliases bool, version string, ) (container.NetworkMode, *network.NetworkingConfig, error) { if service.NetworkMode != "" { return container.NetworkMode(service.NetworkMode), nil, nil } if len(project.Networks) == 0 { return "none", nil, nil } var primaryNetworkKey string if len(service.Networks) > 0 { primaryNetworkKey = service.NetworksByPriority()[0] } else { primaryNetworkKey = "default" } primaryNetworkMobyNetworkName := project.Networks[primaryNetworkKey].Name primaryNetworkEndpoint := createEndpointSettings(project, service, serviceIndex, primaryNetworkKey, links, useNetworkAliases) endpointsConfig := map[string]*network.EndpointSettings{} // Starting from API version 1.44, the Engine will take several EndpointsConfigs // so we can pass all the extra networks we want the container to be connected to // in the network configuration instead of connecting the container to each extra // network individually after creation. if versions.GreaterThanOrEqualTo(version, "1.44") { if len(service.Networks) > 1 { serviceNetworks := service.NetworksByPriority() for _, networkKey := range serviceNetworks[1:] { mobyNetworkName := project.Networks[networkKey].Name epSettings := createEndpointSettings(project, service, serviceIndex, networkKey, links, useNetworkAliases) endpointsConfig[mobyNetworkName] = epSettings } } if primaryNetworkEndpoint.MacAddress == "" { primaryNetworkEndpoint.MacAddress = service.MacAddress } } if versions.LessThan(version, "1.49") { for _, config := range service.Networks { if config != nil && config.InterfaceName != "" { return "", nil, fmt.Errorf("interface_name requires Docker Engine v28.1 or later") } } } endpointsConfig[primaryNetworkMobyNetworkName] = primaryNetworkEndpoint networkConfig := &network.NetworkingConfig{ EndpointsConfig: endpointsConfig, } // From the Engine API docs: // > Supported standard values are: bridge, host, none, and container:. // > Any other value is taken as a custom network's name to which this container should connect to. return container.NetworkMode(primaryNetworkMobyNetworkName), networkConfig, nil } func getRestartPolicy(service types.ServiceConfig) container.RestartPolicy { var restart container.RestartPolicy if service.Restart != "" { split := strings.Split(service.Restart, ":") var attempts int if len(split) > 1 { attempts, _ = strconv.Atoi(split[1]) } restart = container.RestartPolicy{ Name: mapRestartPolicyCondition(split[0]), MaximumRetryCount: attempts, } } if service.Deploy != nil && service.Deploy.RestartPolicy != nil { policy := *service.Deploy.RestartPolicy var attempts int if policy.MaxAttempts != nil { attempts = int(*policy.MaxAttempts) } restart = container.RestartPolicy{ Name: mapRestartPolicyCondition(policy.Condition), MaximumRetryCount: attempts, } } return restart } func mapRestartPolicyCondition(condition string) container.RestartPolicyMode { // map definitions of deploy.restart_policy to engine definitions switch condition { case "none", "no": return container.RestartPolicyDisabled case "on-failure": return container.RestartPolicyOnFailure case "unless-stopped": return container.RestartPolicyUnlessStopped case "any", "always": return container.RestartPolicyAlways default: return container.RestartPolicyMode(condition) } } func getDeployResources(s types.ServiceConfig) container.Resources { var swappiness *int64 if s.MemSwappiness != 0 { val := int64(s.MemSwappiness) swappiness = &val } resources := container.Resources{ CgroupParent: s.CgroupParent, Memory: int64(s.MemLimit), MemorySwap: int64(s.MemSwapLimit), MemorySwappiness: swappiness, MemoryReservation: int64(s.MemReservation), OomKillDisable: &s.OomKillDisable, CPUCount: s.CPUCount, CPUPeriod: s.CPUPeriod, CPUQuota: s.CPUQuota, CPURealtimePeriod: s.CPURTPeriod, CPURealtimeRuntime: s.CPURTRuntime, CPUShares: s.CPUShares, NanoCPUs: int64(s.CPUS * 1e9), CPUPercent: int64(s.CPUPercent * 100), CpusetCpus: s.CPUSet, DeviceCgroupRules: s.DeviceCgroupRules, } if s.PidsLimit != 0 { resources.PidsLimit = &s.PidsLimit } setBlkio(s.BlkioConfig, &resources) if s.Deploy != nil { setLimits(s.Deploy.Resources.Limits, &resources) setReservations(s.Deploy.Resources.Reservations, &resources) } var cdiDeviceNames []string for _, device := range s.Devices { if device.Source == device.Target && cdi.IsQualifiedName(device.Source) { cdiDeviceNames = append(cdiDeviceNames, device.Source) continue } resources.Devices = append(resources.Devices, container.DeviceMapping{ PathOnHost: device.Source, PathInContainer: device.Target, CgroupPermissions: device.Permissions, }) } if len(cdiDeviceNames) > 0 { resources.DeviceRequests = append(resources.DeviceRequests, container.DeviceRequest{ Driver: "cdi", DeviceIDs: cdiDeviceNames, }) } for _, gpus := range s.Gpus { resources.DeviceRequests = append(resources.DeviceRequests, container.DeviceRequest{ Driver: gpus.Driver, Count: int(gpus.Count), DeviceIDs: gpus.IDs, Capabilities: [][]string{append(gpus.Capabilities, "gpu")}, Options: gpus.Options, }) } ulimits := toUlimits(s.Ulimits) resources.Ulimits = ulimits return resources } func toUlimits(m map[string]*types.UlimitsConfig) []*container.Ulimit { var ulimits []*container.Ulimit for name, u := range m { soft := u.Single if u.Soft != 0 { soft = u.Soft } hard := u.Single if u.Hard != 0 { hard = u.Hard } ulimits = append(ulimits, &container.Ulimit{ Name: name, Hard: int64(hard), Soft: int64(soft), }) } return ulimits } func setReservations(reservations *types.Resource, resources *container.Resources) { if reservations == nil { return } // Cpu reservation is a swarm option and PIDs is only a limit // So we only need to map memory reservation and devices if reservations.MemoryBytes != 0 { resources.MemoryReservation = int64(reservations.MemoryBytes) } for _, device := range reservations.Devices { resources.DeviceRequests = append(resources.DeviceRequests, container.DeviceRequest{ Capabilities: [][]string{device.Capabilities}, Count: int(device.Count), DeviceIDs: device.IDs, Driver: device.Driver, Options: device.Options, }) } } func setLimits(limits *types.Resource, resources *container.Resources) { if limits == nil { return } if limits.MemoryBytes != 0 { resources.Memory = int64(limits.MemoryBytes) } if limits.NanoCPUs != 0 { resources.NanoCPUs = int64(limits.NanoCPUs * 1e9) } if limits.Pids > 0 { resources.PidsLimit = &limits.Pids } } func setBlkio(blkio *types.BlkioConfig, resources *container.Resources) { if blkio == nil { return } resources.BlkioWeight = blkio.Weight for _, b := range blkio.WeightDevice { resources.BlkioWeightDevice = append(resources.BlkioWeightDevice, &blkiodev.WeightDevice{ Path: b.Path, Weight: b.Weight, }) } for _, b := range blkio.DeviceReadBps { resources.BlkioDeviceReadBps = append(resources.BlkioDeviceReadBps, &blkiodev.ThrottleDevice{ Path: b.Path, Rate: uint64(b.Rate), }) } for _, b := range blkio.DeviceReadIOps { resources.BlkioDeviceReadIOps = append(resources.BlkioDeviceReadIOps, &blkiodev.ThrottleDevice{ Path: b.Path, Rate: uint64(b.Rate), }) } for _, b := range blkio.DeviceWriteBps { resources.BlkioDeviceWriteBps = append(resources.BlkioDeviceWriteBps, &blkiodev.ThrottleDevice{ Path: b.Path, Rate: uint64(b.Rate), }) } for _, b := range blkio.DeviceWriteIOps { resources.BlkioDeviceWriteIOps = append(resources.BlkioDeviceWriteIOps, &blkiodev.ThrottleDevice{ Path: b.Path, Rate: uint64(b.Rate), }) } } func buildContainerPorts(s types.ServiceConfig) nat.PortSet { ports := nat.PortSet{} for _, s := range s.Expose { p := nat.Port(s) ports[p] = struct{}{} } for _, p := range s.Ports { p := nat.Port(fmt.Sprintf("%d/%s", p.Target, p.Protocol)) ports[p] = struct{}{} } return ports } func buildContainerPortBindingOptions(s types.ServiceConfig) nat.PortMap { bindings := nat.PortMap{} for _, port := range s.Ports { p := nat.Port(fmt.Sprintf("%d/%s", port.Target, port.Protocol)) binding := nat.PortBinding{ HostIP: port.HostIP, HostPort: port.Published, } bindings[p] = append(bindings[p], binding) } return bindings } func getDependentServiceFromMode(mode string) string { if strings.HasPrefix( mode, types.NetworkModeServicePrefix, ) { return mode[len(types.NetworkModeServicePrefix):] } return "" } func (s *composeService) buildContainerVolumes( ctx context.Context, p types.Project, service types.ServiceConfig, inherit *container.Summary, ) ([]string, []mount.Mount, error) { var mounts []mount.Mount var binds []string mountOptions, err := s.buildContainerMountOptions(ctx, p, service, inherit) if err != nil { return nil, nil, err } for _, m := range mountOptions { switch m.Type { case mount.TypeBind: // `Mount` is preferred but does not offer option to created host path if missing // so `Bind` API is used here with raw volume string // see https://github.com/moby/moby/issues/43483 v := findVolumeByTarget(service.Volumes, m.Target) if v != nil { if v.Type != types.VolumeTypeBind { v.Source = m.Source } if !bindRequiresMountAPI(v.Bind) { source := m.Source if vol := findVolumeByName(p.Volumes, m.Source); vol != nil { source = m.Source } binds = append(binds, toBindString(source, v)) continue } } case mount.TypeVolume: v := findVolumeByTarget(service.Volumes, m.Target) vol := findVolumeByName(p.Volumes, m.Source) if v != nil && vol != nil { // Prefer the bind API if no advanced option is used, to preserve backward compatibility if !volumeRequiresMountAPI(v.Volume) { binds = append(binds, toBindString(vol.Name, v)) continue } } case mount.TypeImage: version, err := s.RuntimeVersion(ctx) if err != nil { return nil, nil, err } if versions.LessThan(version, "1.48") { return nil, nil, fmt.Errorf("volume with type=image require Docker Engine v28 or later") } } mounts = append(mounts, m) } return binds, mounts, nil } func toBindString(name string, v *types.ServiceVolumeConfig) string { access := "rw" if v.ReadOnly { access = "ro" } options := []string{access} if v.Bind != nil && v.Bind.SELinux != "" { options = append(options, v.Bind.SELinux) } if v.Bind != nil && v.Bind.Propagation != "" { options = append(options, v.Bind.Propagation) } if v.Volume != nil && v.Volume.NoCopy { options = append(options, "nocopy") } return fmt.Sprintf("%s:%s:%s", name, v.Target, strings.Join(options, ",")) } func findVolumeByName(volumes types.Volumes, name string) *types.VolumeConfig { for _, vol := range volumes { if vol.Name == name { return &vol } } return nil } func findVolumeByTarget(volumes []types.ServiceVolumeConfig, target string) *types.ServiceVolumeConfig { for _, v := range volumes { if v.Target == target { return &v } } return nil } // bindRequiresMountAPI check if Bind declaration can be implemented by the plain old Bind API or uses any of the advanced // options which require use of Mount API func bindRequiresMountAPI(bind *types.ServiceVolumeBind) bool { switch { case bind == nil: return false case !bind.CreateHostPath: return true case bind.Propagation != "": return true case bind.Recursive != "": return true default: return false } } // volumeRequiresMountAPI check if Volume declaration can be implemented by the plain old Bind API or uses any of the advanced // options which require use of Mount API func volumeRequiresMountAPI(vol *types.ServiceVolumeVolume) bool { switch { case vol == nil: return false case len(vol.Labels) > 0: return true case vol.Subpath != "": return true case vol.NoCopy: return true default: return false } } func (s *composeService) buildContainerMountOptions(ctx context.Context, p types.Project, service types.ServiceConfig, inherit *container.Summary) ([]mount.Mount, error) { mounts := map[string]mount.Mount{} if inherit != nil { for _, m := range inherit.Mounts { if m.Type == "tmpfs" { continue } src := m.Source if m.Type == "volume" { src = m.Name } img, err := s.apiClient().ImageInspect(ctx, api.GetImageNameOrDefault(service, p.Name)) if err != nil { return nil, err } if img.Config != nil { if _, ok := img.Config.Volumes[m.Destination]; ok { // inherit previous container's anonymous volume mounts[m.Destination] = mount.Mount{ Type: m.Type, Source: src, Target: m.Destination, ReadOnly: !m.RW, } } } volumes := []types.ServiceVolumeConfig{} for _, v := range service.Volumes { if v.Target != m.Destination || v.Source != "" { volumes = append(volumes, v) continue } // inherit previous container's anonymous volume mounts[m.Destination] = mount.Mount{ Type: m.Type, Source: src, Target: m.Destination, ReadOnly: !m.RW, } } service.Volumes = volumes } } mounts, err := fillBindMounts(p, service, mounts) if err != nil { return nil, err } values := make([]mount.Mount, 0, len(mounts)) for _, v := range mounts { values = append(values, v) } return values, nil } func fillBindMounts(p types.Project, s types.ServiceConfig, m map[string]mount.Mount) (map[string]mount.Mount, error) { for _, v := range s.Volumes { bindMount, err := buildMount(p, v) if err != nil { return nil, err } m[bindMount.Target] = bindMount } secrets, err := buildContainerSecretMounts(p, s) if err != nil { return nil, err } for _, s := range secrets { if _, found := m[s.Target]; found { continue } m[s.Target] = s } configs, err := buildContainerConfigMounts(p, s) if err != nil { return nil, err } for _, c := range configs { if _, found := m[c.Target]; found { continue } m[c.Target] = c } return m, nil } func buildContainerConfigMounts(p types.Project, s types.ServiceConfig) ([]mount.Mount, error) { mounts := map[string]mount.Mount{} configsBaseDir := "/" for _, config := range s.Configs { target := config.Target if config.Target == "" { target = configsBaseDir + config.Source } else if !isAbsTarget(config.Target) { target = configsBaseDir + config.Target } definedConfig := p.Configs[config.Source] if definedConfig.External { return nil, fmt.Errorf("unsupported external config %s", definedConfig.Name) } if definedConfig.Driver != "" { return nil, errors.New("Docker Compose does not support configs.*.driver") //nolint:staticcheck } if definedConfig.TemplateDriver != "" { return nil, errors.New("Docker Compose does not support configs.*.template_driver") //nolint:staticcheck } if definedConfig.Environment != "" || definedConfig.Content != "" { continue } if config.UID != "" || config.GID != "" || config.Mode != nil { logrus.Warn("config `uid`, `gid` and `mode` are not supported, they will be ignored") } bindMount, err := buildMount(p, types.ServiceVolumeConfig{ Type: types.VolumeTypeBind, Source: definedConfig.File, Target: target, ReadOnly: true, }) if err != nil { return nil, err } mounts[target] = bindMount } values := make([]mount.Mount, 0, len(mounts)) for _, v := range mounts { values = append(values, v) } return values, nil } func buildContainerSecretMounts(p types.Project, s types.ServiceConfig) ([]mount.Mount, error) { mounts := map[string]mount.Mount{} secretsDir := "/run/secrets/" for _, secret := range s.Secrets { target := secret.Target if secret.Target == "" { target = secretsDir + secret.Source } else if !isAbsTarget(secret.Target) { target = secretsDir + secret.Target } definedSecret := p.Secrets[secret.Source] if definedSecret.External { return nil, fmt.Errorf("unsupported external secret %s", definedSecret.Name) } if definedSecret.Driver != "" { return nil, errors.New("Docker Compose does not support secrets.*.driver") //nolint:staticcheck } if definedSecret.TemplateDriver != "" { return nil, errors.New("Docker Compose does not support secrets.*.template_driver") //nolint:staticcheck } if definedSecret.Environment != "" { continue } if secret.UID != "" || secret.GID != "" || secret.Mode != nil { logrus.Warn("secrets `uid`, `gid` and `mode` are not supported, they will be ignored") } if _, err := os.Stat(definedSecret.File); os.IsNotExist(err) { logrus.Warnf("secret file %s does not exist", definedSecret.Name) } mnt, err := buildMount(p, types.ServiceVolumeConfig{ Type: types.VolumeTypeBind, Source: definedSecret.File, Target: target, ReadOnly: true, Bind: &types.ServiceVolumeBind{ CreateHostPath: false, }, }) if err != nil { return nil, err } mounts[target] = mnt } values := make([]mount.Mount, 0, len(mounts)) for _, v := range mounts { values = append(values, v) } return values, nil } func isAbsTarget(p string) bool { return isUnixAbs(p) || isWindowsAbs(p) } func isUnixAbs(p string) bool { return strings.HasPrefix(p, "/") } func isWindowsAbs(p string) bool { return paths.IsWindowsAbs(p) } func buildMount(project types.Project, volume types.ServiceVolumeConfig) (mount.Mount, error) { source := volume.Source switch volume.Type { case types.VolumeTypeBind: if !filepath.IsAbs(source) && !isUnixAbs(source) && !isWindowsAbs(source) { // volume source has already been prefixed with workdir if required, by compose-go project loader var err error source, err = filepath.Abs(source) if err != nil { return mount.Mount{}, err } } case types.VolumeTypeVolume: if volume.Source != "" { pVolume, ok := project.Volumes[volume.Source] if ok { source = pVolume.Name } } } bind, vol, tmpfs, img := buildMountOptions(volume) if bind != nil { volume.Type = types.VolumeTypeBind } return mount.Mount{ Type: mount.Type(volume.Type), Source: source, Target: volume.Target, ReadOnly: volume.ReadOnly, Consistency: mount.Consistency(volume.Consistency), BindOptions: bind, VolumeOptions: vol, TmpfsOptions: tmpfs, ImageOptions: img, }, nil } func buildMountOptions(volume types.ServiceVolumeConfig) (*mount.BindOptions, *mount.VolumeOptions, *mount.TmpfsOptions, *mount.ImageOptions) { if volume.Type != types.VolumeTypeBind && volume.Bind != nil { logrus.Warnf("mount of type `%s` should not define `bind` option", volume.Type) } if volume.Type != types.VolumeTypeVolume && volume.Volume != nil { logrus.Warnf("mount of type `%s` should not define `volume` option", volume.Type) } if volume.Type != types.VolumeTypeTmpfs && volume.Tmpfs != nil { logrus.Warnf("mount of type `%s` should not define `tmpfs` option", volume.Type) } if volume.Type != types.VolumeTypeImage && volume.Image != nil { logrus.Warnf("mount of type `%s` should not define `image` option", volume.Type) } switch volume.Type { case "bind": return buildBindOption(volume.Bind), nil, nil, nil case "volume": return nil, buildVolumeOptions(volume.Volume), nil, nil case "tmpfs": return nil, nil, buildTmpfsOptions(volume.Tmpfs), nil case "image": return nil, nil, nil, buildImageOptions(volume.Image) } return nil, nil, nil, nil } func buildBindOption(bind *types.ServiceVolumeBind) *mount.BindOptions { if bind == nil { return nil } opts := &mount.BindOptions{ Propagation: mount.Propagation(bind.Propagation), CreateMountpoint: bind.CreateHostPath, } switch bind.Recursive { case "disabled": opts.NonRecursive = true case "writable": opts.ReadOnlyNonRecursive = true case "readonly": opts.ReadOnlyForceRecursive = true } return opts } func buildVolumeOptions(vol *types.ServiceVolumeVolume) *mount.VolumeOptions { if vol == nil { return nil } return &mount.VolumeOptions{ NoCopy: vol.NoCopy, Subpath: vol.Subpath, Labels: vol.Labels, // DriverConfig: , // FIXME missing from model ? } } func buildTmpfsOptions(tmpfs *types.ServiceVolumeTmpfs) *mount.TmpfsOptions { if tmpfs == nil { return nil } return &mount.TmpfsOptions{ SizeBytes: int64(tmpfs.Size), Mode: os.FileMode(tmpfs.Mode), } } func buildImageOptions(image *types.ServiceVolumeImage) *mount.ImageOptions { if image == nil { return nil } return &mount.ImageOptions{ Subpath: image.SubPath, } } func (s *composeService) ensureNetwork(ctx context.Context, project *types.Project, name string, n *types.NetworkConfig) (string, error) { if n.External { return s.resolveExternalNetwork(ctx, n) } id, err := s.resolveOrCreateNetwork(ctx, project, name, n) if cerrdefs.IsConflict(err) { // Maybe another execution of `docker compose up|run` created same network // let's retry once return s.resolveOrCreateNetwork(ctx, project, name, n) } return id, err } func (s *composeService) resolveOrCreateNetwork(ctx context.Context, project *types.Project, name string, n *types.NetworkConfig) (string, error) { //nolint:gocyclo // This is containers that could be left after a diverged network was removed var dangledContainers Containers // First, try to find a unique network matching by name or ID inspect, err := s.apiClient().NetworkInspect(ctx, n.Name, network.InspectOptions{}) if err == nil { // NetworkInspect will match on ID prefix, so double check we get the expected one // as looking for network named `db` we could erroneously match network ID `db9086999caf` if inspect.Name == n.Name || inspect.ID == n.Name { p, ok := inspect.Labels[api.ProjectLabel] if !ok { logrus.Warnf("a network with name %s exists but was not created by compose.\n"+ "Set `external: true` to use an existing network", n.Name) } else if p != project.Name { logrus.Warnf("a network with name %s exists but was not created for project %q.\n"+ "Set `external: true` to use an existing network", n.Name, project.Name) } if inspect.Labels[api.NetworkLabel] != name { return "", fmt.Errorf( "network %s was found but has incorrect label %s set to %q (expected: %q)", n.Name, api.NetworkLabel, inspect.Labels[api.NetworkLabel], name, ) } hash := inspect.Labels[api.ConfigHashLabel] expected, err := NetworkHash(n) if err != nil { return "", err } if hash == "" || hash == expected { return inspect.ID, nil } dangledContainers, err = s.removeDivergedNetwork(ctx, project, name, n) if err != nil { return "", err } } } // ignore other errors. Typically, an ambiguous request by name results in some generic `invalidParameter` error // Either not found, or name is ambiguous - use NetworkList to list by name networks, err := s.apiClient().NetworkList(ctx, network.ListOptions{ Filters: filters.NewArgs(filters.Arg("name", n.Name)), }) if err != nil { return "", err } // NetworkList Matches all or part of a network name, so we have to filter for a strict match networks = slices.DeleteFunc(networks, func(net network.Summary) bool { return net.Name != n.Name }) for _, net := range networks { if net.Labels[api.ProjectLabel] == project.Name && net.Labels[api.NetworkLabel] == name { return net.ID, nil } } // we could have set NetworkList with a projectFilter and networkFilter but not doing so allows to catch this // scenario were a network with same name exists but doesn't have label, and use of `CheckDuplicate: true` // prevents to create another one. if len(networks) > 0 { logrus.Warnf("a network with name %s exists but was not created by compose.\n"+ "Set `external: true` to use an existing network", n.Name) return networks[0].ID, nil } var ipam *network.IPAM if n.Ipam.Config != nil { var config []network.IPAMConfig for _, pool := range n.Ipam.Config { config = append(config, network.IPAMConfig{ Subnet: pool.Subnet, IPRange: pool.IPRange, Gateway: pool.Gateway, AuxAddress: pool.AuxiliaryAddresses, }) } ipam = &network.IPAM{ Driver: n.Ipam.Driver, Config: config, } } hash, err := NetworkHash(n) if err != nil { return "", err } n.CustomLabels = n.CustomLabels.Add(api.ConfigHashLabel, hash) createOpts := network.CreateOptions{ Labels: mergeLabels(n.Labels, n.CustomLabels), Driver: n.Driver, Options: n.DriverOpts, Internal: n.Internal, Attachable: n.Attachable, IPAM: ipam, EnableIPv6: n.EnableIPv6, EnableIPv4: n.EnableIPv4, } if n.Ipam.Driver != "" || len(n.Ipam.Config) > 0 { createOpts.IPAM = &network.IPAM{} } if n.Ipam.Driver != "" { createOpts.IPAM.Driver = n.Ipam.Driver } for _, ipamConfig := range n.Ipam.Config { config := network.IPAMConfig{ Subnet: ipamConfig.Subnet, IPRange: ipamConfig.IPRange, Gateway: ipamConfig.Gateway, AuxAddress: ipamConfig.AuxiliaryAddresses, } createOpts.IPAM.Config = append(createOpts.IPAM.Config, config) } networkEventName := fmt.Sprintf("Network %s", n.Name) w := progress.ContextWriter(ctx) w.Event(progress.CreatingEvent(networkEventName)) resp, err := s.apiClient().NetworkCreate(ctx, n.Name, createOpts) if err != nil { w.Event(progress.ErrorEvent(networkEventName)) return "", fmt.Errorf("failed to create network %s: %w", n.Name, err) } w.Event(progress.CreatedEvent(networkEventName)) err = s.connectNetwork(ctx, n.Name, dangledContainers, nil) if err != nil { return "", err } return resp.ID, nil } func (s *composeService) removeDivergedNetwork(ctx context.Context, project *types.Project, name string, n *types.NetworkConfig) (Containers, error) { // Remove services attached to this network to force recreation var services []string for _, service := range project.Services.Filter(func(config types.ServiceConfig) bool { _, ok := config.Networks[name] return ok }) { services = append(services, service.Name) } // Stop containers so we can remove network // They will be restarted (actually: recreated) with the updated network err := s.stop(ctx, project.Name, api.StopOptions{ Services: services, Project: project, }) if err != nil { return nil, err } containers, err := s.getContainers(ctx, project.Name, oneOffExclude, true, services...) if err != nil { return nil, err } err = s.disconnectNetwork(ctx, n.Name, containers) if err != nil { return nil, err } err = s.apiClient().NetworkRemove(ctx, n.Name) eventName := fmt.Sprintf("Network %s", n.Name) progress.ContextWriter(ctx).Event(progress.RemovedEvent(eventName)) return containers, err } func (s *composeService) disconnectNetwork( ctx context.Context, network string, containers Containers, ) error { for _, c := range containers { err := s.apiClient().NetworkDisconnect(ctx, network, c.ID, true) if err != nil { return err } } return nil } func (s *composeService) connectNetwork( ctx context.Context, network string, containers Containers, config *network.EndpointSettings, ) error { for _, c := range containers { err := s.apiClient().NetworkConnect(ctx, network, c.ID, config) if err != nil { return err } } return nil } func (s *composeService) resolveExternalNetwork(ctx context.Context, n *types.NetworkConfig) (string, error) { // NetworkInspect will match on ID prefix, so NetworkList with a name // filter is used to look for an exact match to prevent e.g. a network // named `db` from getting erroneously matched to a network with an ID // like `db9086999caf` networks, err := s.apiClient().NetworkList(ctx, network.ListOptions{ Filters: filters.NewArgs(filters.Arg("name", n.Name)), }) if err != nil { return "", err } if len(networks) == 0 { // in this instance, n.Name is really an ID sn, err := s.apiClient().NetworkInspect(ctx, n.Name, network.InspectOptions{}) if err == nil { networks = append(networks, sn) } else if !cerrdefs.IsNotFound(err) { return "", err } } // NetworkList API doesn't return the exact name match, so we can retrieve more than one network with a request networks = slices.DeleteFunc(networks, func(net network.Inspect) bool { // this function is called during the rebuild stage of `compose watch`. // we still require just one network back, but we need to run the search on the ID return net.Name != n.Name && net.ID != n.Name }) switch len(networks) { case 1: return networks[0].ID, nil case 0: enabled, err := s.isSWarmEnabled(ctx) if err != nil { return "", err } if enabled { // Swarm nodes do not register overlay networks that were // created on a different node unless they're in use. // So we can't preemptively check network exists, but // networkAttach will later fail anyway if network actually doesn't exist return "swarm", nil } return "", fmt.Errorf("network %s declared as external, but could not be found", n.Name) default: return "", fmt.Errorf("multiple networks with name %q were found. Use network ID as `name` to avoid ambiguity", n.Name) } } func (s *composeService) ensureVolume(ctx context.Context, name string, volume types.VolumeConfig, project *types.Project, assumeYes bool) (string, error) { inspected, err := s.apiClient().VolumeInspect(ctx, volume.Name) if err != nil { if !cerrdefs.IsNotFound(err) { return "", err } if volume.External { return "", fmt.Errorf("external volume %q not found", volume.Name) } err = s.createVolume(ctx, volume) return volume.Name, err } if volume.External { return volume.Name, nil } // Volume exists with name, but let's double-check this is the expected one p, ok := inspected.Labels[api.ProjectLabel] if !ok { logrus.Warnf("volume %q already exists but was not created by Docker Compose. Use `external: true` to use an existing volume", volume.Name) } if ok && p != project.Name { logrus.Warnf("volume %q already exists but was created for project %q (expected %q). Use `external: true` to use an existing volume", volume.Name, p, project.Name) } expected, err := VolumeHash(volume) if err != nil { return "", err } actual, ok := inspected.Labels[api.ConfigHashLabel] if ok && actual != expected { confirm := assumeYes if !assumeYes { msg := fmt.Sprintf("Volume %q exists but doesn't match configuration in compose file. Recreate (data will be lost)?", volume.Name) confirm, err = prompt.NewPrompt(s.stdin(), s.stdout()).Confirm(msg, false) if err != nil { return "", err } } if confirm { err = s.removeDivergedVolume(ctx, name, volume, project) if err != nil { return "", err } return volume.Name, s.createVolume(ctx, volume) } } return inspected.Name, nil } func (s *composeService) removeDivergedVolume(ctx context.Context, name string, volume types.VolumeConfig, project *types.Project) error { // Remove services mounting divergent volume var services []string for _, service := range project.Services.Filter(func(config types.ServiceConfig) bool { for _, cfg := range config.Volumes { if cfg.Source == name { return true } } return false }) { services = append(services, service.Name) } err := s.stop(ctx, project.Name, api.StopOptions{ Services: services, Project: project, }) if err != nil { return err } containers, err := s.getContainers(ctx, project.Name, oneOffExclude, true, services...) if err != nil { return err } // FIXME (ndeloof) we have to remove container so we can recreate volume // but doing so we can't inherit anonymous volumes from previous instance err = s.remove(ctx, containers, api.RemoveOptions{ Services: services, Project: project, }) if err != nil { return err } return s.apiClient().VolumeRemove(ctx, volume.Name, true) } func (s *composeService) createVolume(ctx context.Context, volume types.VolumeConfig) error { eventName := fmt.Sprintf("Volume %q", volume.Name) w := progress.ContextWriter(ctx) w.Event(progress.CreatingEvent(eventName)) hash, err := VolumeHash(volume) if err != nil { return err } volume.CustomLabels.Add(api.ConfigHashLabel, hash) _, err = s.apiClient().VolumeCreate(ctx, volumetypes.CreateOptions{ Labels: mergeLabels(volume.Labels, volume.CustomLabels), Name: volume.Name, Driver: volume.Driver, DriverOpts: volume.DriverOpts, }) if err != nil { w.Event(progress.ErrorEvent(eventName)) return err } w.Event(progress.CreatedEvent(eventName)) return nil }