const (
	// EXT_COPYUP is a directive to copy up the contents of a directory when
	// a tmpfs is mounted over it.
	EXT_COPYUP = 1 << iota
)

type Action int

const (
	Kill Action = iota + 1
	Errno
	Trap
	Allow
	Trace
	Log
)

type Arg struct {
	Index    uint     `json:"index"`
	Value    uint64   `json:"value"`
	ValueTwo uint64   `json:"value_two"`
	Op       Operator `json:"op"`
}

type Capabilities struct {
	// Bounding is the set of capabilities checked by the kernel.
	Bounding []string
	// Effective is the set of capabilities checked by the kernel.
	Effective []string
	// Inheritable is the capabilities preserved across execve.
	Inheritable []string
	// Permitted is the limiting superset for effective capabilities.
	Permitted []string
	// Ambient is the ambient set of capabilities that are kept.
	Ambient []string
}

type Cgroup struct {
}

type Command struct {
	Path    string         `json:"path"`
	Args    []string       `json:"args"`
	Env     []string       `json:"env"`
	Dir     string         `json:"dir"`
	Timeout *time.Duration `json:"timeout"`
}

type CommandHook struct {
	Command
}

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"`

	// Path to a directory containing the container's root filesystem.
	Rootfs string `json:"rootfs"`

	// Umask is the umask to use inside of the container.
	Umask *uint32 `json:"umask"`

	// 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 []*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 capabilities not specified will be dropped from the processes capability mask
	Capabilities *Capabilities `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. If it is unset then we don't touch the current
	// value.
	// More information about kernel oom score calculation here: https://lwn.net/Articles/317814/
	OomScoreAdj *int `json:"oom_score_adj,omitempty"`

	// 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"`

	// NoNewKeyring will not allocated a new session keyring for the container.  It will use the
	// callers keyring in this case.
	NoNewKeyring bool `json:"no_new_keyring"`

	// IntelRdt specifies settings for Intel RDT group that the container is placed into
	// to limit the resources (e.g., L3 cache, memory bandwidth) the container has available
	IntelRdt *IntelRdt `json:"intel_rdt,omitempty"`

	// RootlessEUID is set when the runc was launched with non-zero EUID.
	// Note that RootlessEUID is set to false when launched with EUID=0 in userns.
	// When RootlessEUID is set, runc creates a new userns for the container.
	// (config.json needs to contain userns settings)
	RootlessEUID bool `json:"rootless_euid,omitempty"`

	// RootlessCgroups is set when unlikely to have the full access to cgroups.
	// When RootlessCgroups is set, cgroups errors are ignored.
	RootlessCgroups bool `json:"rootless_cgroups,omitempty"`
}

type Device = devices.Device

type DevicePermissions = devices.Permissions

type DeviceRule = devices.Rule

type DeviceType = devices.Type

type FuncHook struct {
	// contains filtered or unexported fields
}

type Hook interface {
	// Run executes the hook with the provided state.
	Run(*specs.State) error
}

type HookList []Hook

type HookName string

const (
	// Prestart commands are executed after the container namespaces are created,
	// but before the user supplied command is executed from init.
	// Note: This hook is now deprecated
	// Prestart commands are called in the Runtime namespace.
	Prestart HookName = "prestart"

	// CreateRuntime commands MUST be called as part of the create operation after
	// the runtime environment has been created but before the pivot_root has been executed.
	// CreateRuntime is called immediately after the deprecated Prestart hook.
	// CreateRuntime commands are called in the Runtime Namespace.
	CreateRuntime HookName = "createRuntime"

	// CreateContainer commands MUST be called as part of the create operation after
	// the runtime environment has been created but before the pivot_root has been executed.
	// CreateContainer commands are called in the Container namespace.
	CreateContainer HookName = "createContainer"

	// StartContainer commands MUST be called as part of the start operation and before
	// the container process is started.
	// StartContainer commands are called in the Container namespace.
	StartContainer HookName = "startContainer"

	// Poststart commands are executed after the container init process starts.
	// Poststart commands are called in the Runtime Namespace.
	Poststart HookName = "poststart"

	// Poststop commands are executed after the container init process exits.
	// Poststop commands are called in the Runtime Namespace.
	Poststop HookName = "poststop"
)

type Hooks map[HookName]HookList

type HugepageLimit struct {
	// which type of hugepage to limit.
	Pagesize string `json:"page_size"`

	// usage limit for hugepage.
	Limit uint64 `json:"limit"`
}

type IDMap struct {
	ContainerID int `json:"container_id"`
	HostID      int `json:"host_id"`
	Size        int `json:"size"`
}

type IfPrioMap struct {
	Interface string `json:"interface"`
	Priority  int64  `json:"priority"`
}

type IntelRdt struct {
	// The schema for L3 cache id and capacity bitmask (CBM)
	// Format: "L3:<cache_id0>=<cbm0>;<cache_id1>=<cbm1>;..."
	L3CacheSchema string `json:"l3_cache_schema,omitempty"`

	// The schema of memory bandwidth per L3 cache id
	// Format: "MB:<cache_id0>=bandwidth0;<cache_id1>=bandwidth1;..."
	// The unit of memory bandwidth is specified in "percentages" by
	// default, and in "MBps" if MBA Software Controller is enabled.
	MemBwSchema string `json:"memBwSchema,omitempty"`
}

type Mount struct {
	// Source path for the mount.
	Source string `json:"source"`

	// Destination path for the mount inside the container.
	Destination string `json:"destination"`

	// Device the mount is for.
	Device string `json:"device"`

	// Mount flags.
	Flags int `json:"flags"`

	// Propagation Flags
	PropagationFlags []int `json:"propagation_flags"`

	// Mount data applied to the mount.
	Data string `json:"data"`

	// Relabel source if set, "z" indicates shared, "Z" indicates unshared.
	Relabel string `json:"relabel"`

	// Extensions are additional flags that are specific to runc.
	Extensions int `json:"extensions"`

	// Optional Command to be run before Source is mounted.
	PremountCmds []Command `json:"premount_cmds"`

	// Optional Command to be run after Source is mounted.
	PostmountCmds []Command `json:"postmount_cmds"`
}

type Namespace struct {
}

type NamespaceType string

type Namespaces []Namespace

type Network struct {
	// Type sets the networks type, commonly veth and loopback
	Type string `json:"type"`

	// Name of the network interface
	Name string `json:"name"`

	// The bridge to use.
	Bridge string `json:"bridge"`

	// MacAddress contains the MAC address to set on the network interface
	MacAddress string `json:"mac_address"`

	// Address contains the IPv4 and mask to set on the network interface
	Address string `json:"address"`

	// Gateway sets the gateway address that is used as the default for the interface
	Gateway string `json:"gateway"`

	// IPv6Address contains the IPv6 and mask to set on the network interface
	IPv6Address string `json:"ipv6_address"`

	// IPv6Gateway sets the ipv6 gateway address that is used as the default for the interface
	IPv6Gateway string `json:"ipv6_gateway"`

	// Mtu sets the mtu value for the interface and will be mirrored on both the host and
	// container's interfaces if a pair is created, specifically in the case of type veth
	// Note: This does not apply to loopback interfaces.
	Mtu int `json:"mtu"`

	// TxQueueLen sets the tx_queuelen value for the interface and will be mirrored on both the host and
	// container's interfaces if a pair is created, specifically in the case of type veth
	// Note: This does not apply to loopback interfaces.
	TxQueueLen int `json:"txqueuelen"`

	// HostInterfaceName is a unique name of a veth pair that resides on in the host interface of the
	// container.
	HostInterfaceName string `json:"host_interface_name"`

	// HairpinMode specifies if hairpin NAT should be enabled on the virtual interface
	// bridge port in the case of type veth
	// Note: This is unsupported on some systems.
	// Note: This does not apply to loopback interfaces.
	HairpinMode bool `json:"hairpin_mode"`
}

type Operator int

const (
	EqualTo Operator = iota + 1
	NotEqualTo
	GreaterThan
	GreaterThanOrEqualTo
	LessThan
	LessThanOrEqualTo
	MaskEqualTo
)

type Rlimit struct {
	Type int    `json:"type"`
	Hard uint64 `json:"hard"`
	Soft uint64 `json:"soft"`
}

type Route struct {
	// Sets the destination and mask, should be a CIDR.  Accepts IPv4 and IPv6
	Destination string `json:"destination"`

	// Sets the source and mask, should be a CIDR.  Accepts IPv4 and IPv6
	Source string `json:"source"`

	// Sets the gateway.  Accepts IPv4 and IPv6
	Gateway string `json:"gateway"`

	// The device to set this route up for, for example: eth0
	InterfaceName string `json:"interface_name"`
}

type Seccomp struct {
	DefaultAction   Action     `json:"default_action"`
	Architectures   []string   `json:"architectures"`
	Syscalls        []*Syscall `json:"syscalls"`
	DefaultErrnoRet *uint      `json:"default_errno_ret"`
}

type Syscall struct {
	Name     string `json:"name"`
	Action   Action `json:"action"`
	ErrnoRet *uint  `json:"errnoRet"`
	Args     []*Arg `json:"args"`
}

type ThrottleDevice struct {

	// Rate is the IO rate limit per cgroup per device
	Rate uint64 `json:"rate"`
	// contains filtered or unexported fields
}

type WeightDevice struct {

	// Weight is the bandwidth rate for the device, range is from 10 to 1000
	Weight uint16 `json:"weight"`
	// LeafWeight is the bandwidth rate for the device while competing with the cgroup's child cgroups, range is from 10 to 1000, cfq scheduler only
	LeafWeight uint16 `json:"leafWeight"`
	// contains filtered or unexported fields
}