// FIXME(thaJeztah): remove once we are a module; the go:build directive prevents go from downgrading language version to go1.16: //go:build go1.23 && (linux || freebsd) package daemon // import "github.com/docker/docker/daemon" import ( "bufio" "context" "fmt" "net" "net/netip" "os" "path/filepath" "runtime" "runtime/debug" "slices" "strconv" "strings" "sync" "syscall" "time" "github.com/containerd/cgroups/v3" cerrdefs "github.com/containerd/errdefs" "github.com/containerd/log" "github.com/docker/docker/api/types/blkiodev" containertypes "github.com/docker/docker/api/types/container" "github.com/docker/docker/api/types/network" "github.com/docker/docker/container" "github.com/docker/docker/daemon/config" "github.com/docker/docker/daemon/initlayer" "github.com/docker/docker/errdefs" "github.com/docker/docker/internal/nlwrap" "github.com/docker/docker/internal/otelutil" "github.com/docker/docker/internal/usergroup" "github.com/docker/docker/libcontainerd/remote" "github.com/docker/docker/libnetwork" nwconfig "github.com/docker/docker/libnetwork/config" "github.com/docker/docker/libnetwork/drivers/bridge" "github.com/docker/docker/libnetwork/netlabel" "github.com/docker/docker/libnetwork/options" lntypes "github.com/docker/docker/libnetwork/types" "github.com/docker/docker/opts" "github.com/docker/docker/pkg/sysinfo" "github.com/docker/docker/runconfig" volumemounts "github.com/docker/docker/volume/mounts" "github.com/moby/sys/mount" "github.com/moby/sys/user" "github.com/opencontainers/runtime-spec/specs-go" "github.com/opencontainers/selinux/go-selinux" "github.com/opencontainers/selinux/go-selinux/label" "github.com/pkg/errors" "github.com/vishvananda/netlink" "go.opentelemetry.io/otel/baggage" "golang.org/x/sys/unix" ) const ( isWindows = false // These values were used to adjust the CPU-shares for older API versions, // but were not used for validation. // // TODO(thaJeztah): validate min/max values for CPU-shares, similar to Windows: https://github.com/moby/moby/issues/47340 // https://github.com/moby/moby/blob/27e85c7b6885c2d21ae90791136d9aba78b83d01/daemon/daemon_windows.go#L97-L99 // // See https://git.kernel.org/cgit/linux/kernel/git/tip/tip.git/tree/kernel/sched/sched.h?id=8cd9234c64c584432f6992fe944ca9e46ca8ea76#n269 // linuxMinCPUShares = 2 // linuxMaxCPUShares = 262144 // It's not kernel limit, we want this 6M limit to account for overhead during startup, and to supply a reasonable functional container linuxMinMemory = 6291456 // constants for remapped root settings defaultIDSpecifier = "default" defaultRemappedID = "dockremap" // constant for cgroup drivers cgroupFsDriver = "cgroupfs" cgroupSystemdDriver = "systemd" cgroupNoneDriver = "none" ) type containerGetter interface { GetContainer(string) (*container.Container, error) } func getMemoryResources(config containertypes.Resources) *specs.LinuxMemory { memory := specs.LinuxMemory{} if config.Memory > 0 { memory.Limit = &config.Memory } if config.MemoryReservation > 0 { memory.Reservation = &config.MemoryReservation } if config.MemorySwap > 0 { memory.Swap = &config.MemorySwap } if config.MemorySwappiness != nil { swappiness := uint64(*config.MemorySwappiness) memory.Swappiness = &swappiness } if config.OomKillDisable != nil { memory.DisableOOMKiller = config.OomKillDisable } if config.KernelMemory != 0 { //nolint:staticcheck // ignore SA1019: memory.Kernel is deprecated: kernel-memory limits are not supported in cgroups v2, and were obsoleted in [kernel v5.4]. This field should no longer be used, as it may be ignored by runtimes. memory.Kernel = &config.KernelMemory //nolint:staticcheck // ignore SA1019: memory.Kernel is deprecated: kernel-memory limits are not supported in cgroups v2, and were obsoleted in [kernel v5.4]. This field should no longer be used, as it may be ignored by runtimes. } if config.KernelMemoryTCP != 0 { memory.KernelTCP = &config.KernelMemoryTCP } if memory != (specs.LinuxMemory{}) { return &memory } return nil } func getPidsLimit(config containertypes.Resources) *specs.LinuxPids { if config.PidsLimit == nil { return nil } if *config.PidsLimit <= 0 { // docker API allows 0 and negative values to unset this to be consistent // with default values. When updating values, runc requires -1 to unset // the previous limit. return &specs.LinuxPids{Limit: -1} } return &specs.LinuxPids{Limit: *config.PidsLimit} } func getCPUResources(config containertypes.Resources) (*specs.LinuxCPU, error) { cpu := specs.LinuxCPU{} if config.CPUShares != 0 { if config.CPUShares < 0 { return nil, fmt.Errorf("invalid CPU shares (%d): value must be a positive integer", config.CPUShares) } shares := uint64(config.CPUShares) cpu.Shares = &shares } if config.CpusetCpus != "" { cpu.Cpus = config.CpusetCpus } if config.CpusetMems != "" { cpu.Mems = config.CpusetMems } if config.NanoCPUs > 0 { // https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt period := uint64(100 * time.Millisecond / time.Microsecond) quota := config.NanoCPUs * int64(period) / 1e9 cpu.Period = &period cpu.Quota = "a } if config.CPUPeriod != 0 { period := uint64(config.CPUPeriod) cpu.Period = &period } if config.CPUQuota != 0 { q := config.CPUQuota cpu.Quota = &q } if config.CPURealtimePeriod != 0 { period := uint64(config.CPURealtimePeriod) cpu.RealtimePeriod = &period } if config.CPURealtimeRuntime != 0 { c := config.CPURealtimeRuntime cpu.RealtimeRuntime = &c } if cpu != (specs.LinuxCPU{}) { return &cpu, nil } return nil, nil } func getBlkioWeightDevices(config containertypes.Resources) ([]specs.LinuxWeightDevice, error) { var stat unix.Stat_t var blkioWeightDevices []specs.LinuxWeightDevice for _, weightDevice := range config.BlkioWeightDevice { if err := unix.Stat(weightDevice.Path, &stat); err != nil { return nil, errors.WithStack(&os.PathError{Op: "stat", Path: weightDevice.Path, Err: err}) } weight := weightDevice.Weight d := specs.LinuxWeightDevice{Weight: &weight} // The type is 32bit on mips. d.Major = int64(unix.Major(uint64(stat.Rdev))) //nolint: unconvert d.Minor = int64(unix.Minor(uint64(stat.Rdev))) //nolint: unconvert blkioWeightDevices = append(blkioWeightDevices, d) } return blkioWeightDevices, nil } func (daemon *Daemon) parseSecurityOpt(cfg *config.Config, securityOptions *container.SecurityOptions, hostConfig *containertypes.HostConfig) error { securityOptions.NoNewPrivileges = cfg.NoNewPrivileges return parseSecurityOpt(securityOptions, hostConfig) } func parseSecurityOpt(securityOptions *container.SecurityOptions, config *containertypes.HostConfig) error { var ( labelOpts []string err error ) for _, opt := range config.SecurityOpt { if opt == "no-new-privileges" { securityOptions.NoNewPrivileges = true continue } if opt == "writable-cgroups" { trueVal := true securityOptions.WritableCgroups = &trueVal continue } if opt == "disable" { labelOpts = append(labelOpts, "disable") continue } var k, v string var ok bool if strings.Contains(opt, "=") { k, v, ok = strings.Cut(opt, "=") } else if strings.Contains(opt, ":") { k, v, ok = strings.Cut(opt, ":") log.G(context.TODO()).Warn("Security options with `:` as a separator are deprecated and will be completely unsupported in 17.04, use `=` instead.") } if !ok { return fmt.Errorf("invalid --security-opt 1: %q", opt) } switch k { case "label": labelOpts = append(labelOpts, v) case "apparmor": securityOptions.AppArmorProfile = v case "seccomp": securityOptions.SeccompProfile = v case "no-new-privileges": nnp, err := strconv.ParseBool(v) if err != nil { return fmt.Errorf("invalid --security-opt 2: %q", opt) } securityOptions.NoNewPrivileges = nnp case "writable-cgroups": writableCgroups, err := strconv.ParseBool(v) if err != nil { return fmt.Errorf("invalid --security-opt 2: %q", opt) } securityOptions.WritableCgroups = &writableCgroups default: return fmt.Errorf("invalid --security-opt 2: %q", opt) } } securityOptions.ProcessLabel, securityOptions.MountLabel, err = label.InitLabels(labelOpts) return err } func getBlkioThrottleDevices(devs []*blkiodev.ThrottleDevice) ([]specs.LinuxThrottleDevice, error) { var throttleDevices []specs.LinuxThrottleDevice var stat unix.Stat_t for _, d := range devs { if err := unix.Stat(d.Path, &stat); err != nil { return nil, errors.WithStack(&os.PathError{Op: "stat", Path: d.Path, Err: err}) } d := specs.LinuxThrottleDevice{Rate: d.Rate} // the type is 32bit on mips d.Major = int64(unix.Major(uint64(stat.Rdev))) //nolint: unconvert d.Minor = int64(unix.Minor(uint64(stat.Rdev))) //nolint: unconvert throttleDevices = append(throttleDevices, d) } return throttleDevices, nil } // adjustParallelLimit takes a number of objects and a proposed limit and // figures out if it's reasonable (and adjusts it accordingly). This is only // used for daemon startup, which does a lot of parallel loading of containers // (and if we exceed RLIMIT_NOFILE then we're in trouble). func adjustParallelLimit(n int, limit int) int { // Rule-of-thumb overhead factor (how many files will each goroutine open // simultaneously). Yes, this is ugly but to be frank this whole thing is // ugly. const overhead = 2 // On Linux, we need to ensure that parallelStartupJobs doesn't cause us to // exceed RLIMIT_NOFILE. If parallelStartupJobs is too large, we reduce it // and give a warning (since in theory the user should increase their // ulimits to the largest possible value for dockerd). var rlim unix.Rlimit if err := unix.Getrlimit(unix.RLIMIT_NOFILE, &rlim); err != nil { log.G(context.TODO()).Warnf("Couldn't find dockerd's RLIMIT_NOFILE to double-check startup parallelism factor: %v", err) return limit } softRlimit := int(rlim.Cur) // Much fewer containers than RLIMIT_NOFILE. No need to adjust anything. if softRlimit > overhead*n { return limit } // RLIMIT_NOFILE big enough, no need to adjust anything. if softRlimit > overhead*limit { return limit } log.G(context.TODO()).Warnf("Found dockerd's open file ulimit (%v) is far too small -- consider increasing it significantly (at least %v)", softRlimit, overhead*limit) return softRlimit / overhead } // adaptContainerSettings is called during container creation to modify any // settings necessary in the HostConfig structure. func (daemon *Daemon) adaptContainerSettings(daemonCfg *config.Config, hostConfig *containertypes.HostConfig) error { if hostConfig.Memory > 0 && hostConfig.MemorySwap == 0 { // By default, MemorySwap is set to twice the size of Memory. hostConfig.MemorySwap = hostConfig.Memory * 2 } if hostConfig.ShmSize == 0 { hostConfig.ShmSize = config.DefaultShmSize if daemonCfg != nil { hostConfig.ShmSize = int64(daemonCfg.ShmSize) } } // Set default IPC mode, if unset for container if hostConfig.IpcMode.IsEmpty() { m := config.DefaultIpcMode if daemonCfg != nil { m = containertypes.IpcMode(daemonCfg.IpcMode) } hostConfig.IpcMode = m } // Set default cgroup namespace mode, if unset for container if hostConfig.CgroupnsMode.IsEmpty() { // for cgroup v2: unshare cgroupns even for privileged containers // https://github.com/containers/libpod/pull/4374#issuecomment-549776387 if hostConfig.Privileged && cgroups.Mode() != cgroups.Unified { hostConfig.CgroupnsMode = containertypes.CgroupnsModeHost } else { m := containertypes.CgroupnsModeHost if cgroups.Mode() == cgroups.Unified { m = containertypes.CgroupnsModePrivate } if daemonCfg != nil { m = containertypes.CgroupnsMode(daemonCfg.CgroupNamespaceMode) } hostConfig.CgroupnsMode = m } } adaptSharedNamespaceContainer(daemon, hostConfig) var err error secOpts, err := daemon.generateSecurityOpt(hostConfig) if err != nil { return err } hostConfig.SecurityOpt = append(hostConfig.SecurityOpt, secOpts...) if hostConfig.OomKillDisable == nil { defaultOomKillDisable := false hostConfig.OomKillDisable = &defaultOomKillDisable } return nil } // adaptSharedNamespaceContainer replaces container name with its ID in hostConfig. // To be more precisely, it modifies `container:name` to `container:ID` of PidMode, IpcMode // and NetworkMode. // // When a container shares its namespace with another container, use ID can keep the namespace // sharing connection between the two containers even the another container is renamed. func adaptSharedNamespaceContainer(daemon containerGetter, hostConfig *containertypes.HostConfig) { containerPrefix := "container:" if hostConfig.PidMode.IsContainer() { pidContainer := hostConfig.PidMode.Container() // if there is any error returned here, we just ignore it and leave it to be // handled in the following logic if c, err := daemon.GetContainer(pidContainer); err == nil { hostConfig.PidMode = containertypes.PidMode(containerPrefix + c.ID) } } if hostConfig.IpcMode.IsContainer() { ipcContainer := hostConfig.IpcMode.Container() if c, err := daemon.GetContainer(ipcContainer); err == nil { hostConfig.IpcMode = containertypes.IpcMode(containerPrefix + c.ID) } } if hostConfig.NetworkMode.IsContainer() { netContainer := hostConfig.NetworkMode.ConnectedContainer() if c, err := daemon.GetContainer(netContainer); err == nil { hostConfig.NetworkMode = containertypes.NetworkMode(containerPrefix + c.ID) } } } // verifyPlatformContainerResources performs platform-specific validation of the container's resource-configuration func verifyPlatformContainerResources(resources *containertypes.Resources, sysInfo *sysinfo.SysInfo, update bool) (warnings []string, _ error) { fixMemorySwappiness(resources) // memory subsystem checks and adjustments if resources.Memory != 0 && resources.Memory < linuxMinMemory { return warnings, fmt.Errorf("Minimum memory limit allowed is 6MB") } if resources.Memory > 0 && !sysInfo.MemoryLimit { warnings = append(warnings, "Your kernel does not support memory limit capabilities or the cgroup is not mounted. Limitation discarded.") resources.Memory = 0 resources.MemorySwap = -1 } if resources.Memory > 0 && resources.MemorySwap != -1 && !sysInfo.SwapLimit { warnings = append(warnings, "Your kernel does not support swap limit capabilities or the cgroup is not mounted. Memory limited without swap.") resources.MemorySwap = -1 } if resources.Memory > 0 && resources.MemorySwap > 0 && resources.MemorySwap < resources.Memory { return warnings, fmt.Errorf("Minimum memoryswap limit should be larger than memory limit, see usage") } if resources.Memory == 0 && resources.MemorySwap > 0 && !update { return warnings, fmt.Errorf("You should always set the Memory limit when using Memoryswap limit, see usage") } if resources.MemorySwappiness != nil && !sysInfo.MemorySwappiness { warnings = append(warnings, "Your kernel does not support memory swappiness capabilities or the cgroup is not mounted. Memory swappiness discarded.") resources.MemorySwappiness = nil } if resources.MemorySwappiness != nil { swappiness := *resources.MemorySwappiness if swappiness < 0 || swappiness > 100 { return warnings, fmt.Errorf("Invalid value: %v, valid memory swappiness range is 0-100", swappiness) } } if resources.MemoryReservation > 0 && !sysInfo.MemoryReservation { warnings = append(warnings, "Your kernel does not support memory soft limit capabilities or the cgroup is not mounted. Limitation discarded.") resources.MemoryReservation = 0 } if resources.MemoryReservation > 0 && resources.MemoryReservation < linuxMinMemory { return warnings, fmt.Errorf("Minimum memory reservation allowed is 6MB") } if resources.Memory > 0 && resources.MemoryReservation > 0 && resources.Memory < resources.MemoryReservation { return warnings, fmt.Errorf("Minimum memory limit can not be less than memory reservation limit, see usage") } if resources.KernelMemory > 0 { // Kernel memory limit is not supported on cgroup v2. // Even on cgroup v1, kernel memory limit (`kmem.limit_in_bytes`) has been deprecated since kernel 5.4. // https://github.com/torvalds/linux/commit/0158115f702b0ba208ab0b5adf44cae99b3ebcc7 if !sysInfo.KernelMemory { warnings = append(warnings, "Your kernel does not support kernel memory limit capabilities or the cgroup is not mounted. Limitation discarded.") resources.KernelMemory = 0 } if resources.KernelMemory > 0 && resources.KernelMemory < linuxMinMemory { return warnings, fmt.Errorf("Minimum kernel memory limit allowed is 6MB") } } if resources.OomKillDisable != nil && !sysInfo.OomKillDisable { // only produce warnings if the setting wasn't to *disable* the OOM Kill; no point // warning the caller if they already wanted the feature to be off if *resources.OomKillDisable { warnings = append(warnings, "Your kernel does not support OomKillDisable. OomKillDisable discarded.") } resources.OomKillDisable = nil } if resources.OomKillDisable != nil && *resources.OomKillDisable && resources.Memory == 0 { warnings = append(warnings, "OOM killer is disabled for the container, but no memory limit is set, this can result in the system running out of resources.") } if resources.PidsLimit != nil && !sysInfo.PidsLimit { if *resources.PidsLimit > 0 { warnings = append(warnings, "Your kernel does not support PIDs limit capabilities or the cgroup is not mounted. PIDs limit discarded.") } resources.PidsLimit = nil } // cpu subsystem checks and adjustments if resources.NanoCPUs > 0 && resources.CPUPeriod > 0 { return warnings, fmt.Errorf("Conflicting options: Nano CPUs and CPU Period cannot both be set") } if resources.NanoCPUs > 0 && resources.CPUQuota > 0 { return warnings, fmt.Errorf("Conflicting options: Nano CPUs and CPU Quota cannot both be set") } if resources.NanoCPUs > 0 && !sysInfo.CPUCfs { return warnings, fmt.Errorf("NanoCPUs can not be set, as your kernel does not support CPU CFS scheduler or the cgroup is not mounted") } // The highest precision we could get on Linux is 0.001, by setting // cpu.cfs_period_us=1000ms // cpu.cfs_quota=1ms // See the following link for details: // https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt // Here we don't set the lower limit and it is up to the underlying platform (e.g., Linux) to return an error. // The error message is 0.01 so that this is consistent with Windows if resources.NanoCPUs != 0 { nc := runtime.NumCPU() if resources.NanoCPUs < 0 || resources.NanoCPUs > int64(nc)*1e9 { return warnings, fmt.Errorf("range of CPUs is from 0.01 to %[1]d.00, as there are only %[1]d CPUs available", nc) } } if resources.CPUShares > 0 && !sysInfo.CPUShares { warnings = append(warnings, "Your kernel does not support CPU shares or the cgroup is not mounted. Shares discarded.") resources.CPUShares = 0 } if (resources.CPUPeriod != 0 || resources.CPUQuota != 0) && !sysInfo.CPUCfs { warnings = append(warnings, "Your kernel does not support CPU CFS scheduler. CPU period/quota discarded.") resources.CPUPeriod = 0 resources.CPUQuota = 0 } if resources.CPUPeriod != 0 && (resources.CPUPeriod < 1000 || resources.CPUPeriod > 1000000) { return warnings, fmt.Errorf("CPU cfs period can not be less than 1ms (i.e. 1000) or larger than 1s (i.e. 1000000)") } if resources.CPUQuota > 0 && resources.CPUQuota < 1000 { return warnings, fmt.Errorf("CPU cfs quota can not be less than 1ms (i.e. 1000)") } if resources.CPUPercent > 0 { warnings = append(warnings, fmt.Sprintf("%s does not support CPU percent. Percent discarded.", runtime.GOOS)) resources.CPUPercent = 0 } // cpuset subsystem checks and adjustments if (resources.CpusetCpus != "" || resources.CpusetMems != "") && !sysInfo.Cpuset { warnings = append(warnings, "Your kernel does not support cpuset or the cgroup is not mounted. Cpuset discarded.") resources.CpusetCpus = "" resources.CpusetMems = "" } cpusAvailable, err := sysInfo.IsCpusetCpusAvailable(resources.CpusetCpus) if err != nil { return warnings, errors.Wrapf(err, "Invalid value %s for cpuset cpus", resources.CpusetCpus) } if !cpusAvailable { return warnings, fmt.Errorf("Requested CPUs are not available - requested %s, available: %s", resources.CpusetCpus, sysInfo.Cpus) } memsAvailable, err := sysInfo.IsCpusetMemsAvailable(resources.CpusetMems) if err != nil { return warnings, errors.Wrapf(err, "Invalid value %s for cpuset mems", resources.CpusetMems) } if !memsAvailable { return warnings, fmt.Errorf("Requested memory nodes are not available - requested %s, available: %s", resources.CpusetMems, sysInfo.Mems) } // blkio subsystem checks and adjustments if resources.BlkioWeight > 0 && !sysInfo.BlkioWeight { warnings = append(warnings, "Your kernel does not support Block I/O weight or the cgroup is not mounted. Weight discarded.") resources.BlkioWeight = 0 } if resources.BlkioWeight > 0 && (resources.BlkioWeight < 10 || resources.BlkioWeight > 1000) { return warnings, fmt.Errorf("Range of blkio weight is from 10 to 1000") } if resources.IOMaximumBandwidth != 0 || resources.IOMaximumIOps != 0 { return warnings, fmt.Errorf("Invalid QoS settings: %s does not support Maximum IO Bandwidth or Maximum IO IOps", runtime.GOOS) } if len(resources.BlkioWeightDevice) > 0 && !sysInfo.BlkioWeightDevice { warnings = append(warnings, "Your kernel does not support Block I/O weight_device or the cgroup is not mounted. Weight-device discarded.") resources.BlkioWeightDevice = []*blkiodev.WeightDevice{} } if len(resources.BlkioDeviceReadBps) > 0 && !sysInfo.BlkioReadBpsDevice { warnings = append(warnings, "Your kernel does not support BPS Block I/O read limit or the cgroup is not mounted. Block I/O BPS read limit discarded.") resources.BlkioDeviceReadBps = []*blkiodev.ThrottleDevice{} } if len(resources.BlkioDeviceWriteBps) > 0 && !sysInfo.BlkioWriteBpsDevice { warnings = append(warnings, "Your kernel does not support BPS Block I/O write limit or the cgroup is not mounted. Block I/O BPS write limit discarded.") resources.BlkioDeviceWriteBps = []*blkiodev.ThrottleDevice{} } if len(resources.BlkioDeviceReadIOps) > 0 && !sysInfo.BlkioReadIOpsDevice { warnings = append(warnings, "Your kernel does not support IOPS Block read limit or the cgroup is not mounted. Block I/O IOPS read limit discarded.") resources.BlkioDeviceReadIOps = []*blkiodev.ThrottleDevice{} } if len(resources.BlkioDeviceWriteIOps) > 0 && !sysInfo.BlkioWriteIOpsDevice { warnings = append(warnings, "Your kernel does not support IOPS Block write limit or the cgroup is not mounted. Block I/O IOPS write limit discarded.") resources.BlkioDeviceWriteIOps = []*blkiodev.ThrottleDevice{} } return warnings, nil } func cgroupDriver(cfg *config.Config) string { if UsingSystemd(cfg) { return cgroupSystemdDriver } if cfg.Rootless { return cgroupNoneDriver } return cgroupFsDriver } // verifyCgroupDriver validates native.cgroupdriver func verifyCgroupDriver(config *config.Config) error { cd, _, err := config.GetExecOpt("native.cgroupdriver") if err != nil { return err } switch cd { case "", cgroupFsDriver, cgroupSystemdDriver: return nil case cgroupNoneDriver: return fmt.Errorf("native.cgroupdriver option %s is internally used and cannot be specified manually", cd) default: return fmt.Errorf("native.cgroupdriver option %s not supported", cd) } } // UsingSystemd returns true if cli option includes native.cgroupdriver=systemd func UsingSystemd(config *config.Config) bool { cd, _, _ := config.GetExecOpt("native.cgroupdriver") if cd == cgroupSystemdDriver { return true } // On cgroup v2 hosts, default to systemd driver if cd == "" && cgroups.Mode() == cgroups.Unified && isRunningSystemd() { return true } return false } var ( runningSystemd bool detectSystemd sync.Once ) // isRunningSystemd checks whether the host was booted with systemd as its init // system. This functions similarly to systemd's `sd_booted(3)`: internally, it // checks whether /run/systemd/system/ exists and is a directory. // http://www.freedesktop.org/software/systemd/man/sd_booted.html // // NOTE: This function comes from package github.com/coreos/go-systemd/util // It was borrowed here to avoid a dependency on cgo. func isRunningSystemd() bool { detectSystemd.Do(func() { fi, err := os.Lstat("/run/systemd/system") if err != nil { return } runningSystemd = fi.IsDir() }) return runningSystemd } // verifyPlatformContainerSettings performs platform-specific validation of the // hostconfig and config structures. func verifyPlatformContainerSettings(daemon *Daemon, daemonCfg *configStore, hostConfig *containertypes.HostConfig, update bool) (warnings []string, _ error) { if hostConfig == nil { return nil, nil } sysInfo := daemon.RawSysInfo() w, err := verifyPlatformContainerResources(&hostConfig.Resources, sysInfo, update) // no matter err is nil or not, w could have data in itself. warnings = append(warnings, w...) if err != nil { return warnings, err } if !hostConfig.IpcMode.Valid() { return warnings, errors.Errorf("invalid IPC mode: %v", hostConfig.IpcMode) } if !hostConfig.PidMode.Valid() { return warnings, errors.Errorf("invalid PID mode: %v", hostConfig.PidMode) } if hostConfig.ShmSize < 0 { return warnings, fmt.Errorf("SHM size can not be less than 0") } if !hostConfig.UTSMode.Valid() { return warnings, errors.Errorf("invalid UTS mode: %v", hostConfig.UTSMode) } if hostConfig.OomScoreAdj < -1000 || hostConfig.OomScoreAdj > 1000 { return warnings, fmt.Errorf("Invalid value %d, range for oom score adj is [-1000, 1000]", hostConfig.OomScoreAdj) } // ip-forwarding does not affect container with '--net=host' (or '--net=none') if sysInfo.IPv4ForwardingDisabled && (!hostConfig.NetworkMode.IsHost() && !hostConfig.NetworkMode.IsNone()) { warnings = append(warnings, "IPv4 forwarding is disabled. Networking will not work.") } if hostConfig.NetworkMode.IsHost() && len(hostConfig.PortBindings) > 0 { warnings = append(warnings, "Published ports are discarded when using host network mode") } // check for various conflicting options with user namespaces if daemonCfg.RemappedRoot != "" && hostConfig.UsernsMode.IsPrivate() { if hostConfig.Privileged { return warnings, fmt.Errorf("privileged mode is incompatible with user namespaces. You must run the container in the host namespace when running privileged mode") } if hostConfig.NetworkMode.IsHost() && !hostConfig.UsernsMode.IsHost() { return warnings, fmt.Errorf("cannot share the host's network namespace when user namespaces are enabled") } if hostConfig.PidMode.IsHost() && !hostConfig.UsernsMode.IsHost() { return warnings, fmt.Errorf("cannot share the host PID namespace when user namespaces are enabled") } } if hostConfig.CgroupParent != "" && UsingSystemd(&daemonCfg.Config) { // CgroupParent for systemd cgroup should be named as "xxx.slice" if len(hostConfig.CgroupParent) <= 6 || !strings.HasSuffix(hostConfig.CgroupParent, ".slice") { return warnings, fmt.Errorf(`cgroup-parent for systemd cgroup should be a valid slice named as "xxx.slice"`) } } if hostConfig.Runtime == "" { hostConfig.Runtime = daemonCfg.Runtimes.Default } if _, _, err := daemonCfg.Runtimes.Get(hostConfig.Runtime); err != nil { return warnings, err } parser := volumemounts.NewParser() for dest := range hostConfig.Tmpfs { if err := parser.ValidateTmpfsMountDestination(dest); err != nil { return warnings, err } } if !hostConfig.CgroupnsMode.Valid() { return warnings, fmt.Errorf("invalid cgroup namespace mode: %v", hostConfig.CgroupnsMode) } if hostConfig.CgroupnsMode.IsPrivate() { if !sysInfo.CgroupNamespaces { warnings = append(warnings, "Your kernel does not support cgroup namespaces. Cgroup namespace setting discarded.") } } return warnings, nil } // verifyDaemonSettings performs validation of daemon config struct func verifyDaemonSettings(conf *config.Config) error { if conf.ContainerdNamespace == conf.ContainerdPluginNamespace { return errors.New("containers namespace and plugins namespace cannot be the same") } // Check for mutually incompatible config options if conf.BridgeConfig.Iface != "" && conf.BridgeConfig.IP != "" { return fmt.Errorf("You specified -b & --bip, mutually exclusive options. Please specify only one") } if conf.BridgeConfig.Iface != "" && conf.BridgeConfig.IP6 != "" { return fmt.Errorf("You specified -b & --bip6, mutually exclusive options. Please specify only one") } if !conf.BridgeConfig.InterContainerCommunication { if !conf.BridgeConfig.EnableIPTables { return fmt.Errorf("You specified --iptables=false with --icc=false. ICC=false uses iptables to function. Please set --icc or --iptables to true") } if conf.BridgeConfig.EnableIPv6 && !conf.BridgeConfig.EnableIP6Tables { return fmt.Errorf("You specified --ip6tables=false with --icc=false. ICC=false uses ip6tables to function. Please set --icc or --ip6tables to true") } } if !conf.BridgeConfig.EnableIPTables && conf.BridgeConfig.EnableIPMasq { conf.BridgeConfig.EnableIPMasq = false } if err := verifyCgroupDriver(conf); err != nil { return err } if conf.CgroupParent != "" && UsingSystemd(conf) { if len(conf.CgroupParent) <= 6 || !strings.HasSuffix(conf.CgroupParent, ".slice") { return fmt.Errorf(`cgroup-parent for systemd cgroup should be a valid slice named as "xxx.slice"`) } } if conf.Rootless && UsingSystemd(conf) && cgroups.Mode() != cgroups.Unified { return fmt.Errorf("exec-opt native.cgroupdriver=systemd requires cgroup v2 for rootless mode") } return nil } // checkSystem validates platform-specific requirements func checkSystem() error { return nil } // configureMaxThreads sets the Go runtime max threads threshold // which is 90% of the kernel setting from /proc/sys/kernel/threads-max func configureMaxThreads(ctx context.Context) error { mt, err := os.ReadFile("/proc/sys/kernel/threads-max") if err != nil { return err } mtint, err := strconv.Atoi(strings.TrimSpace(string(mt))) if err != nil { return err } maxThreads := (mtint / 100) * 90 debug.SetMaxThreads(maxThreads) log.G(ctx).Debugf("Golang's threads limit set to %d", maxThreads) return nil } func overlaySupportsSelinux() (bool, error) { f, err := os.Open("/proc/kallsyms") if err != nil { if os.IsNotExist(err) { return false, nil } return false, err } defer f.Close() s := bufio.NewScanner(f) for s.Scan() { if strings.HasSuffix(s.Text(), " security_inode_copy_up") { return true, nil } } return false, s.Err() } // configureKernelSecuritySupport configures and validates security support for the kernel func configureKernelSecuritySupport(config *config.Config, driverName string) error { if config.EnableSelinuxSupport { if !selinux.GetEnabled() { log.G(context.TODO()).Warn("Docker could not enable SELinux on the host system") return nil } if driverName == "overlay2" || driverName == "overlayfs" { // If driver is overlay2, make sure kernel // supports selinux with overlay. supported, err := overlaySupportsSelinux() if err != nil { return err } if !supported { log.G(context.TODO()).Warnf("SELinux is not supported with the %v graph driver on this kernel", driverName) } } } else { selinux.SetDisabled() } return nil } // initNetworkController initializes the libnetwork controller and configures // network settings. If there's active sandboxes, configuration changes will not // take effect. func (daemon *Daemon) initNetworkController(cfg *config.Config, activeSandboxes map[string]any) error { netOptions, err := daemon.networkOptions(cfg, daemon.PluginStore, daemon.id, activeSandboxes) if err != nil { return err } ctx := baggage.ContextWithBaggage(context.TODO(), otelutil.MustNewBaggage( otelutil.MustNewMemberRaw(otelutil.TriggerKey, "daemon.initNetworkController"), )) daemon.netController, err = libnetwork.New(ctx, netOptions...) if err != nil { return fmt.Errorf("error obtaining controller instance: %v", err) } if len(activeSandboxes) > 0 { log.G(ctx).Info("there are running containers, updated network configuration will not take affect") } else if err := configureNetworking(ctx, daemon.netController, cfg); err != nil { return err } // Set HostGatewayIP to the default bridge's IP if it is empty setHostGatewayIP(daemon.netController, cfg) return nil } func configureNetworking(ctx context.Context, controller *libnetwork.Controller, conf *config.Config) error { // Create predefined network "none" if n, _ := controller.NetworkByName(network.NetworkNone); n == nil { if _, err := controller.NewNetwork(ctx, "null", network.NetworkNone, "", libnetwork.NetworkOptionPersist(true)); err != nil { return errors.Wrapf(err, `error creating default %q network`, network.NetworkNone) } } // Create predefined network "host" if n, _ := controller.NetworkByName(network.NetworkHost); n == nil { if _, err := controller.NewNetwork(ctx, "host", network.NetworkHost, "", libnetwork.NetworkOptionPersist(true)); err != nil { return errors.Wrapf(err, `error creating default %q network`, network.NetworkHost) } } // Clear stale bridge network if n, err := controller.NetworkByName(network.NetworkBridge); err == nil { if err = n.Delete(); err != nil { return errors.Wrapf(err, `could not delete the default %q network`, network.NetworkBridge) } if len(conf.NetworkConfig.DefaultAddressPools.Value()) > 0 && !conf.LiveRestoreEnabled { removeDefaultBridgeInterface() } } if !conf.DisableBridge { // Initialize default driver "bridge" if err := initBridgeDriver(ctx, controller, conf.BridgeConfig); err != nil { return err } } else { removeDefaultBridgeInterface() } return nil } // setHostGatewayIP sets cfg.HostGatewayIP to the default bridge's IP if it is empty. func setHostGatewayIP(controller *libnetwork.Controller, config *config.Config) { if len(config.HostGatewayIPs) > 0 { return } if n, err := controller.NetworkByName(network.NetworkBridge); err == nil { v4Info, v6Info := n.IpamInfo() if len(v4Info) > 0 { addr, _ := netip.AddrFromSlice(v4Info[0].Gateway.IP) config.HostGatewayIPs = append(config.HostGatewayIPs, addr) } if len(v6Info) > 0 { addr, _ := netip.AddrFromSlice(v6Info[0].Gateway.IP) config.HostGatewayIPs = append(config.HostGatewayIPs, addr) } } } func driverOptions(config *config.Config) nwconfig.Option { return nwconfig.OptionDriverConfig("bridge", options.Generic{ netlabel.GenericData: options.Generic{ "EnableIPForwarding": config.BridgeConfig.EnableIPForward, "DisableFilterForwardDrop": config.BridgeConfig.DisableFilterForwardDrop, "EnableIPTables": config.BridgeConfig.EnableIPTables, "EnableIP6Tables": config.BridgeConfig.EnableIP6Tables, "EnableUserlandProxy": config.BridgeConfig.EnableUserlandProxy, "UserlandProxyPath": config.BridgeConfig.UserlandProxyPath, "AllowDirectRouting": config.BridgeConfig.AllowDirectRouting, "Rootless": config.Rootless, }, }) } type defBrOptsV4 struct { cfg config.BridgeConfig } func (o defBrOptsV4) nlFamily() int { return netlink.FAMILY_V4 } func (o defBrOptsV4) fixedCIDR() (fCIDR, optName string) { return o.cfg.FixedCIDR, "fixed-cidr" } func (o defBrOptsV4) bip() (bip, optName string) { return o.cfg.IP, "bip" } func (o defBrOptsV4) defGw() (gw net.IP, optName, auxAddrLabel string) { return o.cfg.DefaultGatewayIPv4, "default-gateway", bridge.DefaultGatewayV4AuxKey } type defBrOptsV6 struct { cfg config.BridgeConfig } func (o defBrOptsV6) nlFamily() int { return netlink.FAMILY_V6 } func (o defBrOptsV6) fixedCIDR() (fCIDR, optName string) { return o.cfg.FixedCIDRv6, "fixed-cidr-v6" } func (o defBrOptsV6) bip() (bip, optName string) { return o.cfg.IP6, "bip6" } func (o defBrOptsV6) defGw() (gw net.IP, optName, auxAddrLabel string) { return o.cfg.DefaultGatewayIPv6, "default-gateway-v6", bridge.DefaultGatewayV6AuxKey } type defBrOpts interface { nlFamily() int fixedCIDR() (fCIDR, optName string) bip() (bip, optName string) defGw() (gw net.IP, optName, auxAddrLabel string) } func initBridgeDriver(ctx context.Context, controller *libnetwork.Controller, cfg config.BridgeConfig) error { bridgeName, userManagedBridge := getDefaultBridgeName(cfg) netOption := map[string]string{ bridge.BridgeName: bridgeName, bridge.DefaultBridge: strconv.FormatBool(true), netlabel.DriverMTU: strconv.Itoa(cfg.MTU), bridge.EnableIPMasquerade: strconv.FormatBool(cfg.EnableIPMasq), bridge.EnableICC: strconv.FormatBool(cfg.InterContainerCommunication), } // --ip processing if cfg.DefaultIP != nil { netOption[bridge.DefaultBindingIP] = cfg.DefaultIP.String() } ipamV4Conf, err := getDefaultBridgeIPAMConf(bridgeName, userManagedBridge, defBrOptsV4{cfg}) if err != nil { return err } var ipamV6Conf []*libnetwork.IpamConf if cfg.EnableIPv6 { ipamV6Conf, err = getDefaultBridgeIPAMConf(bridgeName, userManagedBridge, defBrOptsV6{cfg}) if err != nil { return err } } // Initialize default network on "bridge" with the same name _, err = controller.NewNetwork(ctx, "bridge", network.NetworkBridge, "", libnetwork.NetworkOptionEnableIPv4(true), libnetwork.NetworkOptionEnableIPv6(cfg.EnableIPv6), libnetwork.NetworkOptionDriverOpts(netOption), libnetwork.NetworkOptionIpam("default", "", ipamV4Conf, ipamV6Conf, nil), ) if err != nil { return fmt.Errorf(`error creating default %q network: %v`, network.NetworkBridge, err) } return nil } func getDefaultBridgeName(cfg config.BridgeConfig) (bridgeName string, userManagedBridge bool) { // cfg.Iface is --bridge, the option to supply a user-managed bridge. if cfg.Iface != "" { // The default network will use a user-managed bridge, the daemon will not // create it, and it is not possible to supply an address using --bip. return cfg.Iface, true } return bridge.DefaultBridgeName, false } // getDefaultBridgeIPAMConf works out IPAM configuration for the // default bridge, for the given address family (netlink.FAMILY_V4 or // netlink.FAMILY_V6). // // Inputs are: // - bip // - CIDR, not a plain IP address. // - docker-managed bridge only (docker0), not allowed with a user-managed // bridge (--bridge) where the user is responsible for creating the bridge // and configuring its addresses. // - determines the network subnet (ipamConf.PreferredPool) and becomes the // bridge/gateway address (ipamConf.Gateway). // // - existing bridge addresses // - for a user-managed bridge // - an address is selected from the bridge to perform the same role as // bip for a daemon-managed bridge. // - for docker0 // - if there's an address on the bridge that's compatible with the other // options, it's used as the gateway address and - because it's always // worked this way, to determine the subnet if it's bigger than the // sub-pool configured through fixed-cidr[-v6]. For example, if the // bridge has address 10.11.12.13/16 and fixed-cidr=10.11.22.0/24, the // default bridge network's subnet is 10.11.0.0/16, sub-pool for // automatic address allocation 10.11.22.0/24, gateway 10.11.12.13. // // - fixed-cidr/fixed-cidr-v6 // - ipamConf.SubPool, the pool for automatic address allocation (somewhat // equivalent to --ip-range for a user-defined network), must be contained // within the subnet. Used as ipamConf.PreferredPool if it's not given a // value by other rules. // // So, for example, with this config (taken from docs): // // "bip": "192.168.1.1/24", // "fixed-cidr": "192.168.1.0/25", // // - the bridge's address is "192.168.1.1/24" // - the subnet is "192.168.1.0/24" // - the bridge driver can allocate addresses from "192.168.1.0/25" // // The result is the same if "bip" is unset (including for a user-managed // bridge), when the bridge already has address "192.168.1.1/24". // // Note that this function logs-then-ignores invalid configuration, because it // has to tolerate existing configuration - raising an error prevents daemon // startup. Earlier versions of the daemon didn't spot bad config, but generally // did something unsurprising with it. func getDefaultBridgeIPAMConf( bridgeName string, userManagedBridge bool, opts defBrOpts, ) ([]*libnetwork.IpamConf, error) { var ( fCidrIP, bIP net.IP fCidrIPNet, bIPNet *net.IPNet err error ) if fixedCIDR, fixedCIDROpt := opts.fixedCIDR(); fixedCIDR != "" { if fCidrIP, fCidrIPNet, err = net.ParseCIDR(fixedCIDR); err != nil { return nil, errors.Wrap(err, "parse "+fixedCIDROpt+" failed") } } if cfgBIP, cfgBIPOpt := opts.bip(); cfgBIP != "" { if bIP, bIPNet, err = net.ParseCIDR(cfgBIP); err != nil { return nil, errors.Wrap(err, "parse "+cfgBIPOpt+" failed") } } else { if bIP, bIPNet, err = selectBIP(userManagedBridge, bridgeName, opts.nlFamily(), fCidrIP, fCidrIPNet); err != nil { return nil, err } } ipamConf := &libnetwork.IpamConf{AuxAddresses: make(map[string]string)} if bIP != nil { ipamConf.PreferredPool = bIPNet.String() ipamConf.Gateway = bIP.String() } else if !userManagedBridge && ipamConf.PreferredPool != "" { _, bipOptName := opts.bip() log.G(context.TODO()).Infof("Default bridge (%s) is assigned with an IP address %s. Daemon option --"+bipOptName+" can be used to set a preferred IP address", bridgeName, ipamConf.PreferredPool) } if fCidrIP != nil && fCidrIPNet != nil { ipamConf.SubPool = fCidrIPNet.String() if ipamConf.PreferredPool == "" { ipamConf.PreferredPool = fCidrIPNet.String() } else if userManagedBridge && bIPNet != nil { fCidrOnes, _ := fCidrIPNet.Mask.Size() bIPOnes, _ := bIPNet.Mask.Size() if !bIPNet.Contains(fCidrIP) || (fCidrOnes < bIPOnes) { // Don't allow SubPool (the range of allocatable addresses) to be outside, or // bigger than, the network itself. This is a configuration error, either the // user-managed bridge is missing an address to match fixed-cidr, or fixed-cidr // is wrong. fixedCIDR, fixedCIDROpt := opts.fixedCIDR() if opts.nlFamily() == netlink.FAMILY_V6 { return nil, fmt.Errorf("%s=%s is outside any subnet implied by addresses on the user-managed default bridge", fixedCIDROpt, fixedCIDR) } // For IPv4, just log rather than raise an error that would cause daemon // startup to fail, because this has been allowed by earlier versions. Remove // the SubPool, so that addresses are allocated from the whole of PreferredPool. log.G(context.TODO()).WithFields(log.Fields{ "bridge": bridgeName, fixedCIDROpt: fixedCIDR, "bridge-network": bIPNet.String(), }).Warn(fixedCIDROpt + " is outside any subnet implied by addresses on the user-managed default bridge, this may be treated as an error in a future release") ipamConf.SubPool = "" } } } if defGw, _, auxAddrLabel := opts.defGw(); defGw != nil { ipamConf.AuxAddresses[auxAddrLabel] = defGw.String() } return []*libnetwork.IpamConf{ipamConf}, nil } // selectBIP searches the addresses from family on bridge bridgeName for: // - An address that encompasses fCidrNet if there is one. // - Else, an address that is within fCidrNet if there is one. // - Else, any address, if there is one. // // If an address is found, the bridge is docker managed (docker0), and the // bridge address is not compatible with current fixed-cidr/bip configuration, // the address is ignored or modified accordingly, so that the current config // can take effect. // // If there is an address, it's returned as bIP with its subnet in canonical // form in bIPNet. func selectBIP( userManagedBridge bool, bridgeName string, family int, fCidrIP net.IP, fCidrNet *net.IPNet, ) (bIP net.IP, bIPNet *net.IPNet, err error) { bridgeNws, err := ifaceAddrs(bridgeName, family) if err != nil { return nil, nil, errors.Wrap(err, "list bridge addresses failed") } // For IPv6, ignore the kernel-assigned link-local address. Remove all // link-local addresses, unless fixed-cidr-v6 has the standard link-local // prefix. (If fixed-cidr-v6 is the standard LL prefix, the kernel-assigned // address is likely to be used instead of an IPAM assigned address.) if family == netlink.FAMILY_V6 && (fCidrIP == nil || !isStandardLL(fCidrIP)) { bridgeNws = slices.DeleteFunc(bridgeNws, func(nlAddr netlink.Addr) bool { return isStandardLL(nlAddr.IP) }) } if len(bridgeNws) > 0 { // Pick any address from the bridge as a starting point. nw := bridgeNws[0].IPNet if len(bridgeNws) > 1 && fCidrNet != nil { // If there's an address with a subnet that contains fixed-cidr, use it. for _, entry := range bridgeNws { if entry.Contains(fCidrIP) { nw = entry.IPNet break } // For backwards compatibility - prefer the first bridge address within // fixed-cidr. If fixed-cidr has a bigger subnet than nw.IP, this doesn't really // make sense - the allocatable range (fixed-cidr) will be bigger than the subnet // (entry.IPNet). if fCidrNet.Contains(entry.IP) && !fCidrNet.Contains(nw.IP) { nw = entry.IPNet } } } bIP = nw.IP bIPNet = lntypes.GetIPNetCanonical(nw) } if !userManagedBridge && fCidrIP != nil && bIPNet != nil { if !bIPNet.Contains(fCidrIP) { // The bridge is docker-managed (docker0) and fixed-cidr is not // inside a subnet belonging to any existing bridge IP. (fixed-cidr // has changed.) So, ignore the existing bridge IP. bIP = nil bIPNet = nil } else { fCidrOnes, _ := fCidrNet.Mask.Size() bIPOnes, _ := bIPNet.Mask.Size() if fCidrOnes < bIPOnes { // The bridge is docker-managed (docker0) and fixed-cidr (the // allocatable address range) is bigger than the subnet implied // by the bridge's current address. (fixed-cidr has changed.) // The bridge's address is ok, but its subnet needs to be updated. bIPNet.IP = bIPNet.IP.Mask(fCidrNet.Mask) bIPNet.Mask = fCidrNet.Mask } } } return bIP, bIPNet, nil } // isStandardLL returns true if ip is in fe80::/64 (the link local prefix is fe80::/10, // but only fe80::/64 is normally used - however, it's possible to ask IPAM for a // link-local subnet that's outside that range). func isStandardLL(ip net.IP) bool { if ip == nil { return false } return ip.Mask(net.CIDRMask(64, 128)).Equal(net.ParseIP("fe80::")) } // Remove default bridge interface if present (--bridge=none use case) func removeDefaultBridgeInterface() { if lnk, err := nlwrap.LinkByName(bridge.DefaultBridgeName); err == nil { if err := netlink.LinkDel(lnk); err != nil { log.G(context.TODO()).Warnf("Failed to remove bridge interface (%s): %v", bridge.DefaultBridgeName, err) } } } func setupInitLayer(uid int, gid int) func(string) error { return func(initPath string) error { return initlayer.Setup(initPath, uid, gid) } } // Parse the remapped root (user namespace) option, which can be one of: // // - username - valid username from /etc/passwd // - username:groupname - valid username; valid groupname from /etc/group // - uid - 32-bit unsigned int valid Linux UID value // - uid:gid - uid value; 32-bit unsigned int Linux GID value // // If no groupname is specified, and a username is specified, an attempt // will be made to lookup a gid for that username as a groupname // // If names are used, they are verified to exist in passwd/group func parseRemappedRoot(usergrp string) (string, string, error) { var ( userID, groupID int username, groupname string ) idparts := strings.Split(usergrp, ":") if len(idparts) > 2 { return "", "", fmt.Errorf("Invalid user/group specification in --userns-remap: %q", usergrp) } if uid, err := strconv.ParseInt(idparts[0], 10, 32); err == nil { // must be a uid; take it as valid userID = int(uid) luser, err := usergroup.LookupUID(userID) if err != nil { return "", "", fmt.Errorf("Uid %d has no entry in /etc/passwd: %v", userID, err) } username = luser.Name if len(idparts) == 1 { // if the uid was numeric and no gid was specified, take the uid as the gid groupID = userID lgrp, err := usergroup.LookupGID(groupID) if err != nil { return "", "", fmt.Errorf("Gid %d has no entry in /etc/group: %v", groupID, err) } groupname = lgrp.Name } } else { lookupName := idparts[0] // special case: if the user specified "default", they want Docker to create or // use (after creation) the "dockremap" user/group for root remapping if lookupName == defaultIDSpecifier { lookupName = defaultRemappedID } luser, err := usergroup.LookupUser(lookupName) if err != nil && idparts[0] != defaultIDSpecifier { // error if the name requested isn't the special "dockremap" ID return "", "", fmt.Errorf("Error during uid lookup for %q: %v", lookupName, err) } else if err != nil { // special case-- if the username == "default", then we have been asked // to create a new entry pair in /etc/{passwd,group} for which the /etc/sub{uid,gid} // ranges will be used for the user and group mappings in user namespaced containers _, _, err := usergroup.AddNamespaceRangesUser(defaultRemappedID) if err == nil { return defaultRemappedID, defaultRemappedID, nil } return "", "", fmt.Errorf("Error during %q user creation: %v", defaultRemappedID, err) } username = luser.Name if len(idparts) == 1 { // we only have a string username, and no group specified; look up gid from username as group group, err := usergroup.LookupGroup(lookupName) if err != nil { return "", "", fmt.Errorf("Error during gid lookup for %q: %v", lookupName, err) } groupname = group.Name } } if len(idparts) == 2 { // groupname or gid is separately specified and must be resolved // to an unsigned 32-bit gid if gid, err := strconv.ParseInt(idparts[1], 10, 32); err == nil { // must be a gid, take it as valid groupID = int(gid) lgrp, err := usergroup.LookupGID(groupID) if err != nil { return "", "", fmt.Errorf("Gid %d has no entry in /etc/passwd: %v", groupID, err) } groupname = lgrp.Name } else { // not a number; attempt a lookup if _, err := usergroup.LookupGroup(idparts[1]); err != nil { return "", "", fmt.Errorf("Error during groupname lookup for %q: %v", idparts[1], err) } groupname = idparts[1] } } return username, groupname, nil } func setupRemappedRoot(config *config.Config) (user.IdentityMapping, error) { if runtime.GOOS != "linux" && config.RemappedRoot != "" { return user.IdentityMapping{}, fmt.Errorf("User namespaces are only supported on Linux") } // if the daemon was started with remapped root option, parse // the config option to the int uid,gid values if config.RemappedRoot != "" { username, groupname, err := parseRemappedRoot(config.RemappedRoot) if err != nil { return user.IdentityMapping{}, err } if username == "root" { // Cannot setup user namespaces with a 1-to-1 mapping; "--root=0:0" is a no-op // effectively log.G(context.TODO()).Warn("User namespaces: root cannot be remapped with itself; user namespaces are OFF") return user.IdentityMapping{}, nil } log.G(context.TODO()).Infof("User namespaces: ID ranges will be mapped to subuid/subgid ranges of: %s", username) // update remapped root setting now that we have resolved them to actual names config.RemappedRoot = fmt.Sprintf("%s:%s", username, groupname) mappings, err := usergroup.LoadIdentityMapping(username) if err != nil { return user.IdentityMapping{}, errors.Wrap(err, "Can't create ID mappings") } return mappings, nil } return user.IdentityMapping{}, nil } func setupDaemonRoot(config *config.Config, rootDir string, uid, gid int) error { config.Root = rootDir // the docker root metadata directory needs to have execute permissions for all users (g+x,o+x) // so that syscalls executing as non-root, operating on subdirectories of the graph root // (e.g. mounted layers of a container) can traverse this path. // The user namespace support will create subdirectories for the remapped root host uid:gid // pair owned by that same uid:gid pair for proper write access to those needed metadata and // layer content subtrees. if _, err := os.Stat(rootDir); err == nil { // root current exists; verify the access bits are correct by setting them if err = os.Chmod(rootDir, 0o711); err != nil { return err } } else if os.IsNotExist(err) { // no root exists yet, create it 0711 with root:root ownership if err := os.MkdirAll(rootDir, 0o711); err != nil { return err } } curuid := os.Getuid() // First make sure the current root dir has the correct perms. if err := user.MkdirAllAndChown(config.Root, 0o710, curuid, gid); err != nil { return errors.Wrapf(err, "could not create or set daemon root permissions: %s", config.Root) } // if user namespaces are enabled we will create a subtree underneath the specified root // with any/all specified remapped root uid/gid options on the daemon creating // a new subdirectory with ownership set to the remapped uid/gid (so as to allow // `chdir()` to work for containers namespaced to that uid/gid) if config.RemappedRoot != "" { config.Root = filepath.Join(rootDir, fmt.Sprintf("%d.%d", uid, gid)) log.G(context.TODO()).Debugf("Creating user namespaced daemon root: %s", config.Root) // Create the root directory if it doesn't exist if err := user.MkdirAllAndChown(config.Root, 0o710, curuid, gid); err != nil { return fmt.Errorf("Cannot create daemon root: %s: %v", config.Root, err) } // we also need to verify that any pre-existing directories in the path to // the graphroot won't block access to remapped root--if any pre-existing directory // has strict permissions that don't allow "x", container start will fail, so // better to warn and fail now dirPath := config.Root for { dirPath = filepath.Dir(dirPath) if dirPath == "/" { break } if !canAccess(dirPath, uid, gid) { return fmt.Errorf("a subdirectory in your graphroot path (%s) restricts access to the remapped root uid/gid; please fix by allowing 'o+x' permissions on existing directories", config.Root) } } } if err := setupDaemonRootPropagation(config); err != nil { log.G(context.TODO()).WithError(err).WithField("dir", config.Root).Warn("Error while setting daemon root propagation, this is not generally critical but may cause some functionality to not work or fallback to less desirable behavior") } return nil } // canAccess takes a valid (existing) directory and a uid, gid pair and determines // if that uid, gid pair has access (execute bit) to the directory. // // Note: this is a very rudimentary check, and may not produce accurate results, // so should not be used for anything other than the current use, see: // https://github.com/moby/moby/issues/43724 func canAccess(path string, uid, gid int) bool { statInfo, err := os.Stat(path) if err != nil { return false } perms := statInfo.Mode().Perm() if perms&0o001 == 0o001 { // world access return true } ssi := statInfo.Sys().(*syscall.Stat_t) if ssi.Uid == uint32(uid) && (perms&0o100 == 0o100) { // owner access. return true } if ssi.Gid == uint32(gid) && (perms&0o010 == 0o010) { // group access. return true } return false } func setupDaemonRootPropagation(cfg *config.Config) error { rootParentMount, mountOptions, err := getSourceMount(cfg.Root) if err != nil { return errors.Wrap(err, "error getting daemon root's parent mount") } var cleanupOldFile bool cleanupFile := getUnmountOnShutdownPath(cfg) defer func() { if !cleanupOldFile { return } if err := os.Remove(cleanupFile); err != nil && !os.IsNotExist(err) { log.G(context.TODO()).WithError(err).WithField("file", cleanupFile).Warn("could not clean up old root propagation unmount file") } }() if hasMountInfoOption(mountOptions, sharedPropagationOption, slavePropagationOption) { cleanupOldFile = true return nil } if err := mount.MakeShared(cfg.Root); err != nil { return errors.Wrap(err, "could not setup daemon root propagation to shared") } // check the case where this may have already been a mount to itself. // If so then the daemon only performed a remount and should not try to unmount this later. if rootParentMount == cfg.Root { cleanupOldFile = true return nil } if err := os.MkdirAll(filepath.Dir(cleanupFile), 0o700); err != nil { return errors.Wrap(err, "error creating dir to store mount cleanup file") } if err := os.WriteFile(cleanupFile, nil, 0o600); err != nil { return errors.Wrap(err, "error writing file to signal mount cleanup on shutdown") } return nil } // getUnmountOnShutdownPath generates the path to used when writing the file that signals to the daemon that on shutdown // the daemon root should be unmounted. func getUnmountOnShutdownPath(config *config.Config) string { return filepath.Join(config.ExecRoot, "unmount-on-shutdown") } // registerLinks registers network links between container and other containers // with the daemon using the specification in hostConfig. func (daemon *Daemon) registerLinks(container *container.Container, hostConfig *containertypes.HostConfig) error { if hostConfig == nil || hostConfig.NetworkMode.IsUserDefined() { return nil } for _, l := range hostConfig.Links { name, alias, err := opts.ParseLink(l) if err != nil { return err } child, err := daemon.GetContainer(name) if err != nil { if cerrdefs.IsNotFound(err) { // Trying to link to a non-existing container is not valid, and // should return an "invalid parameter" error. Returning a "not // found" error here would make the client report the container's // image could not be found (see moby/moby#39823) err = errdefs.InvalidParameter(err) } return errors.Wrapf(err, "could not get container for %s", name) } for child.HostConfig.NetworkMode.IsContainer() { cid := child.HostConfig.NetworkMode.ConnectedContainer() child, err = daemon.GetContainer(cid) if err != nil { if cerrdefs.IsNotFound(err) { // Trying to link to a non-existing container is not valid, and // should return an "invalid parameter" error. Returning a "not // found" error here would make the client report the container's // image could not be found (see moby/moby#39823) err = errdefs.InvalidParameter(err) } return errors.Wrapf(err, "could not get container for %s", cid) } } if child.HostConfig.NetworkMode.IsHost() { return runconfig.ErrConflictHostNetworkAndLinks } if err := daemon.registerLink(container, child, alias); err != nil { return err } } return nil } // conditionalMountOnStart is a platform specific helper function during the // container start to call mount. func (daemon *Daemon) conditionalMountOnStart(container *container.Container) error { return daemon.Mount(container) } // conditionalUnmountOnCleanup is a platform specific helper function called // during the cleanup of a container to unmount. func (daemon *Daemon) conditionalUnmountOnCleanup(container *container.Container) error { return daemon.Unmount(container) } // setDefaultIsolation determines the default isolation mode for the // daemon to run in. This is only applicable on Windows func (daemon *Daemon) setDefaultIsolation(*config.Config) error { return nil } func (daemon *Daemon) initCPURtController(cfg *config.Config, mnt, path string) error { if path == "/" || path == "." { return nil } // Recursively create cgroup to ensure that the system and all parent cgroups have values set // for the period and runtime as this limits what the children can be set to. if err := daemon.initCPURtController(cfg, mnt, filepath.Dir(path)); err != nil { return err } path = filepath.Join(mnt, path) if err := os.MkdirAll(path, 0o755); err != nil { return err } if err := maybeCreateCPURealTimeFile(cfg.CPURealtimePeriod, "cpu.rt_period_us", path); err != nil { return err } return maybeCreateCPURealTimeFile(cfg.CPURealtimeRuntime, "cpu.rt_runtime_us", path) } func maybeCreateCPURealTimeFile(configValue int64, file string, path string) error { if configValue == 0 { return nil } return os.WriteFile(filepath.Join(path, file), []byte(strconv.FormatInt(configValue, 10)), 0o700) } func (daemon *Daemon) setupSeccompProfile(cfg *config.Config) error { switch profile := cfg.SeccompProfile; profile { case "", config.SeccompProfileDefault: daemon.seccompProfilePath = config.SeccompProfileDefault case config.SeccompProfileUnconfined: daemon.seccompProfilePath = config.SeccompProfileUnconfined default: daemon.seccompProfilePath = profile b, err := os.ReadFile(profile) if err != nil { return fmt.Errorf("opening seccomp profile (%s) failed: %v", profile, err) } daemon.seccompProfile = b } return nil } func getSysInfo(cfg *config.Config) *sysinfo.SysInfo { var siOpts []sysinfo.Opt if cgroupDriver(cfg) == cgroupSystemdDriver { if euid := os.Getenv("ROOTLESSKIT_PARENT_EUID"); euid != "" { siOpts = append(siOpts, sysinfo.WithCgroup2GroupPath("/user.slice/user-"+euid+".slice")) } } return sysinfo.New(siOpts...) } func (daemon *Daemon) initLibcontainerd(ctx context.Context, cfg *config.Config) error { var err error daemon.containerd, err = remote.NewClient( ctx, daemon.containerdClient, filepath.Join(cfg.ExecRoot, "containerd"), cfg.ContainerdNamespace, daemon, ) return err } func recursiveUnmount(target string) error { return mount.RecursiveUnmount(target) }