package configs import ( "bytes" "encoding/json" "fmt" "os/exec" "time" "github.com/Sirupsen/logrus" ) type Rlimit struct { Type int `json:"type"` Hard uint64 `json:"hard"` Soft uint64 `json:"soft"` } // IDMap represents UID/GID Mappings for User Namespaces. type IDMap struct { ContainerID int `json:"container_id"` HostID int `json:"host_id"` Size int `json:"size"` } // Seccomp represents syscall restrictions // By default, only the native architecture of the kernel is allowed to be used // for syscalls. Additional architectures can be added by specifying them in // Architectures. type Seccomp struct { DefaultAction Action `json:"default_action"` Architectures []string `json:"architectures"` Syscalls []*Syscall `json:"syscalls"` } // An action to be taken upon rule match in Seccomp type Action int const ( Kill Action = iota + 1 Errno Trap Allow Trace ) // A comparison operator to be used when matching syscall arguments in Seccomp type Operator int const ( EqualTo Operator = iota + 1 NotEqualTo GreaterThan GreaterThanOrEqualTo LessThan LessThanOrEqualTo MaskEqualTo ) // A rule to match a specific syscall argument in Seccomp type Arg struct { Index uint `json:"index"` Value uint64 `json:"value"` ValueTwo uint64 `json:"value_two"` Op Operator `json:"op"` } // An rule to match a syscall in Seccomp type Syscall struct { Name string `json:"name"` Action Action `json:"action"` Args []*Arg `json:"args"` } // TODO Windows. Many of these fields should be factored out into those parts // which are common across platforms, and those which are platform specific. // Config defines configuration options for executing a process inside a contained environment. type Config struct { // NoPivotRoot will use MS_MOVE and a chroot to jail the process into the container's rootfs // This is a common option when the container is running in ramdisk NoPivotRoot bool `json:"no_pivot_root"` // ParentDeathSignal specifies the signal that is sent to the container's process in the case // that the parent process dies. ParentDeathSignal int `json:"parent_death_signal"` // PivotDir allows a custom directory inside the container's root filesystem to be used as pivot, when NoPivotRoot is not set. // When a custom PivotDir not set, a temporary dir inside the root filesystem will be used. The pivot dir needs to be writeable. // This is required when using read only root filesystems. In these cases, a read/writeable path can be (bind) mounted somewhere inside the root filesystem to act as pivot. PivotDir string `json:"pivot_dir"` // Path to a directory containing the container's root filesystem. Rootfs string `json:"rootfs"` // Readonlyfs will remount the container's rootfs as readonly where only externally mounted // bind mounts are writtable. Readonlyfs bool `json:"readonlyfs"` // Specifies the mount propagation flags to be applied to /. RootPropagation int `json:"rootPropagation"` // Mounts specify additional source and destination paths that will be mounted inside the container's // rootfs and mount namespace if specified Mounts []*Mount `json:"mounts"` // The device nodes that should be automatically created within the container upon container start. Note, make sure that the node is marked as allowed in the cgroup as well! Devices []*Device `json:"devices"` MountLabel string `json:"mount_label"` // Hostname optionally sets the container's hostname if provided Hostname string `json:"hostname"` // Namespaces specifies the container's namespaces that it should setup when cloning the init process // If a namespace is not provided that namespace is shared from the container's parent process Namespaces Namespaces `json:"namespaces"` // Capabilities specify the capabilities to keep when executing the process inside the container // All capbilities not specified will be dropped from the processes capability mask Capabilities []string `json:"capabilities"` // Networks specifies the container's network setup to be created Networks []*Network `json:"networks"` // Routes can be specified to create entries in the route table as the container is started Routes []*Route `json:"routes"` // Cgroups specifies specific cgroup settings for the various subsystems that the container is // placed into to limit the resources the container has available Cgroups *Cgroup `json:"cgroups"` // AppArmorProfile specifies the profile to apply to the process running in the container and is // change at the time the process is execed AppArmorProfile string `json:"apparmor_profile,omitempty"` // ProcessLabel specifies the label to apply to the process running in the container. It is // commonly used by selinux ProcessLabel string `json:"process_label,omitempty"` // Rlimits specifies the resource limits, such as max open files, to set in the container // If Rlimits are not set, the container will inherit rlimits from the parent process Rlimits []Rlimit `json:"rlimits,omitempty"` // OomScoreAdj specifies the adjustment to be made by the kernel when calculating oom scores // for a process. Valid values are between the range [-1000, '1000'], where processes with // higher scores are preferred for being killed. // More information about kernel oom score calculation here: https://lwn.net/Articles/317814/ OomScoreAdj int `json:"oom_score_adj"` // AdditionalGroups specifies the gids that should be added to supplementary groups // in addition to those that the user belongs to. AdditionalGroups []string `json:"additional_groups"` // UidMappings is an array of User ID mappings for User Namespaces UidMappings []IDMap `json:"uid_mappings"` // GidMappings is an array of Group ID mappings for User Namespaces GidMappings []IDMap `json:"gid_mappings"` // MaskPaths specifies paths within the container's rootfs to mask over with a bind // mount pointing to /dev/null as to prevent reads of the file. MaskPaths []string `json:"mask_paths"` // ReadonlyPaths specifies paths within the container's rootfs to remount as read-only // so that these files prevent any writes. ReadonlyPaths []string `json:"readonly_paths"` // Sysctl is a map of properties and their values. It is the equivalent of using // sysctl -w my.property.name value in Linux. Sysctl map[string]string `json:"sysctl"` // Seccomp allows actions to be taken whenever a syscall is made within the container. // A number of rules are given, each having an action to be taken if a syscall matches it. // A default action to be taken if no rules match is also given. Seccomp *Seccomp `json:"seccomp"` // NoNewPrivileges controls whether processes in the container can gain additional privileges. NoNewPrivileges bool `json:"no_new_privileges,omitempty"` // Hooks are a collection of actions to perform at various container lifecycle events. // CommandHooks are serialized to JSON, but other hooks are not. Hooks *Hooks // Version is the version of opencontainer specification that is supported. Version string `json:"version"` // Labels are user defined metadata that is stored in the config and populated on the state Labels []string `json:"labels"` } type Hooks struct { // Prestart commands are executed after the container namespaces are created, // but before the user supplied command is executed from init. Prestart []Hook // Poststart commands are executed after the container init process starts. Poststart []Hook // Poststop commands are executed after the container init process exits. Poststop []Hook } func (hooks *Hooks) UnmarshalJSON(b []byte) error { var state struct { Prestart []CommandHook Poststart []CommandHook Poststop []CommandHook } if err := json.Unmarshal(b, &state); err != nil { return err } deserialize := func(shooks []CommandHook) (hooks []Hook) { for _, shook := range shooks { hooks = append(hooks, shook) } return hooks } hooks.Prestart = deserialize(state.Prestart) hooks.Poststart = deserialize(state.Poststart) hooks.Poststop = deserialize(state.Poststop) return nil } func (hooks Hooks) MarshalJSON() ([]byte, error) { serialize := func(hooks []Hook) (serializableHooks []CommandHook) { for _, hook := range hooks { switch chook := hook.(type) { case CommandHook: serializableHooks = append(serializableHooks, chook) default: logrus.Warnf("cannot serialize hook of type %T, skipping", hook) } } return serializableHooks } return json.Marshal(map[string]interface{}{ "prestart": serialize(hooks.Prestart), "poststart": serialize(hooks.Poststart), "poststop": serialize(hooks.Poststop), }) } // HookState is the payload provided to a hook on execution. type HookState struct { Version string `json:"version"` ID string `json:"id"` Pid int `json:"pid"` Root string `json:"root"` } type Hook interface { // Run executes the hook with the provided state. Run(HookState) error } // NewFunctionHooks will call the provided function when the hook is run. func NewFunctionHook(f func(HookState) error) FuncHook { return FuncHook{ run: f, } } type FuncHook struct { run func(HookState) error } func (f FuncHook) Run(s HookState) error { return f.run(s) } type Command struct { Path string `json:"path"` Args []string `json:"args"` Env []string `json:"env"` Dir string `json:"dir"` Timeout *time.Duration `json:"timeout"` } // NewCommandHooks will execute the provided command when the hook is run. func NewCommandHook(cmd Command) CommandHook { return CommandHook{ Command: cmd, } } type CommandHook struct { Command } func (c Command) Run(s HookState) error { b, err := json.Marshal(s) if err != nil { return err } cmd := exec.Cmd{ Path: c.Path, Args: c.Args, Env: c.Env, Stdin: bytes.NewReader(b), } errC := make(chan error, 1) go func() { errC <- cmd.Run() }() if c.Timeout != nil { select { case err := <-errC: return err case <-time.After(*c.Timeout): cmd.Process.Kill() cmd.Wait() return fmt.Errorf("hook ran past specified timeout of %.1fs", c.Timeout.Seconds()) } } return <-errC }