specs

package
v1.2.0 Latest Latest
Warning

This package is not in the latest version of its module.

 Go to latest Published: Jan 26, 2024 License: Apache-2.0 Imports: 2 Imported by: 4,769

Documentation

Index

Constants

View Source 
const (
	// VersionMajor is for an API incompatible changes
	VersionMajor = 1
	// VersionMinor is for functionality in a backwards-compatible manner
	VersionMinor = 2
	// VersionPatch is for backwards-compatible bug fixes
	VersionPatch = 0

	// VersionDev indicates development branch. Releases will be empty string.
	VersionDev = ""
)
View Source 
const (
	// SeccompFdName is the name of the seccomp notify file descriptor.
	SeccompFdName string = "seccompFd"
)

Variables

View Source 
var Version = fmt.Sprintf("%d.%d.%d%s", VersionMajor, VersionMinor, VersionPatch, VersionDev)

Version is the specification version that the package types support.

Functions

This section is empty.

Types

type Arch 

type Arch string

Arch used for additional architectures 

const (
	ArchX86         Arch = "SCMP_ARCH_X86"
	ArchX86_64      Arch = "SCMP_ARCH_X86_64"
	ArchX32         Arch = "SCMP_ARCH_X32"
	ArchARM         Arch = "SCMP_ARCH_ARM"
	ArchAARCH64     Arch = "SCMP_ARCH_AARCH64"
	ArchMIPS        Arch = "SCMP_ARCH_MIPS"
	ArchMIPS64      Arch = "SCMP_ARCH_MIPS64"
	ArchMIPS64N32   Arch = "SCMP_ARCH_MIPS64N32"
	ArchMIPSEL      Arch = "SCMP_ARCH_MIPSEL"
	ArchMIPSEL64    Arch = "SCMP_ARCH_MIPSEL64"
	ArchMIPSEL64N32 Arch = "SCMP_ARCH_MIPSEL64N32"
	ArchPPC         Arch = "SCMP_ARCH_PPC"
	ArchPPC64       Arch = "SCMP_ARCH_PPC64"
	ArchPPC64LE     Arch = "SCMP_ARCH_PPC64LE"
	ArchS390        Arch = "SCMP_ARCH_S390"
	ArchS390X       Arch = "SCMP_ARCH_S390X"
	ArchPARISC      Arch = "SCMP_ARCH_PARISC"
	ArchPARISC64    Arch = "SCMP_ARCH_PARISC64"
	ArchRISCV64     Arch = "SCMP_ARCH_RISCV64"
)

Additional architectures permitted to be used for system calls By default only the native architecture of the kernel is permitted

type Box added in v1.0.0 

type Box struct {
	// Height is the vertical dimension of a box.
	Height uint `json:"height"`
	// Width is the horizontal dimension of a box.
	Width uint `json:"width"`
}

Box specifies dimensions of a rectangle. Used for specifying the size of a console.

type ContainerProcessState added in v1.1.0 

type ContainerProcessState struct {
	// Version is the version of the specification that is supported.
	Version string `json:"ociVersion"`
	// Fds is a string array containing the names of the file descriptors passed.
	// The index of the name in this array corresponds to index of the file
	// descriptor in the `SCM_RIGHTS` array.
	Fds []string `json:"fds"`
	// Pid is the process ID as seen by the runtime.
	Pid int `json:"pid"`
	// Opaque metadata.
	Metadata string `json:"metadata,omitempty"`
	// State of the container.
	State State `json:"state"`
}

ContainerProcessState holds information about the state of a container process.

type ContainerState added in v1.1.0 

type ContainerState string

ContainerState represents the state of a container. 

const (
	// StateCreating indicates that the container is being created
	StateCreating ContainerState = "creating"

	// StateCreated indicates that the runtime has finished the create operation
	StateCreated ContainerState = "created"

	// StateRunning indicates that the container process has executed the
	// user-specified program but has not exited
	StateRunning ContainerState = "running"

	// StateStopped indicates that the container process has exited
	StateStopped ContainerState = "stopped"
)

type Hook 

type Hook struct {
	Path    string   `json:"path"`
	Args    []string `json:"args,omitempty"`
	Env     []string `json:"env,omitempty"`
	Timeout *int     `json:"timeout,omitempty"`
}

Hook specifies a command that is run at a particular event in the lifecycle of a container

type Hooks 

type Hooks struct {
	// Prestart is Deprecated. Prestart is a list of hooks to be run before the container process is executed.
	// It is called in the Runtime Namespace
	//
	// Deprecated: use [Hooks.CreateRuntime], [Hooks.CreateContainer], and
	// [Hooks.StartContainer] instead, which allow more granular hook control
	// during the create and start phase.
	Prestart []Hook `json:"prestart,omitempty"`
	// CreateRuntime is a list of hooks to be run after the container has been created but before pivot_root or any equivalent operation has been called
	// It is called in the Runtime Namespace
	CreateRuntime []Hook `json:"createRuntime,omitempty"`
	// CreateContainer is a list of hooks to be run after the container has been created but before pivot_root or any equivalent operation has been called
	// It is called in the Container Namespace
	CreateContainer []Hook `json:"createContainer,omitempty"`
	// StartContainer is a list of hooks to be run after the start operation is called but before the container process is started
	// It is called in the Container Namespace
	StartContainer []Hook `json:"startContainer,omitempty"`
	// Poststart is a list of hooks to be run after the container process is started.
	// It is called in the Runtime Namespace
	Poststart []Hook `json:"poststart,omitempty"`
	// Poststop is a list of hooks to be run after the container process exits.
	// It is called in the Runtime Namespace
	Poststop []Hook `json:"poststop,omitempty"`
}

Hooks specifies a command that is run in the container at a particular event in the lifecycle of a container Hooks for container setup and teardown

type IOPriorityClass added in v1.1.0 

type IOPriorityClass string

IOPriorityClass represents an I/O scheduling class. 

const (
	IOPRIO_CLASS_RT   IOPriorityClass = "IOPRIO_CLASS_RT"
	IOPRIO_CLASS_BE   IOPriorityClass = "IOPRIO_CLASS_BE"
	IOPRIO_CLASS_IDLE IOPriorityClass = "IOPRIO_CLASS_IDLE"
)

Possible values for IOPriorityClass.

type Linux 

type Linux struct {
	// UIDMapping specifies user mappings for supporting user namespaces.
	UIDMappings []LinuxIDMapping `json:"uidMappings,omitempty"`
	// GIDMapping specifies group mappings for supporting user namespaces.
	GIDMappings []LinuxIDMapping `json:"gidMappings,omitempty"`
	// Sysctl are a set of key value pairs that are set for the container on start
	Sysctl map[string]string `json:"sysctl,omitempty"`
	// Resources contain cgroup information for handling resource constraints
	// for the container
	Resources *LinuxResources `json:"resources,omitempty"`
	// CgroupsPath specifies the path to cgroups that are created and/or joined by the container.
	// The path is expected to be relative to the cgroups mountpoint.
	// If resources are specified, the cgroups at CgroupsPath will be updated based on resources.
	CgroupsPath string `json:"cgroupsPath,omitempty"`
	// Namespaces contains the namespaces that are created and/or joined by the container
	Namespaces []LinuxNamespace `json:"namespaces,omitempty"`
	// Devices are a list of device nodes that are created for the container
	Devices []LinuxDevice `json:"devices,omitempty"`
	// Seccomp specifies the seccomp security settings for the container.
	Seccomp *LinuxSeccomp `json:"seccomp,omitempty"`
	// RootfsPropagation is the rootfs mount propagation mode for the container.
	RootfsPropagation string `json:"rootfsPropagation,omitempty"`
	// MaskedPaths masks over the provided paths inside the container.
	MaskedPaths []string `json:"maskedPaths,omitempty"`
	// ReadonlyPaths sets the provided paths as RO inside the container.
	ReadonlyPaths []string `json:"readonlyPaths,omitempty"`
	// MountLabel specifies the selinux context for the mounts in the container.
	MountLabel string `json:"mountLabel,omitempty"`
	// IntelRdt contains Intel Resource Director Technology (RDT) information for
	// handling resource constraints and monitoring metrics (e.g., L3 cache, memory bandwidth) for the container
	IntelRdt *LinuxIntelRdt `json:"intelRdt,omitempty"`
	// Personality contains configuration for the Linux personality syscall
	Personality *LinuxPersonality `json:"personality,omitempty"`
	// TimeOffsets specifies the offset for supporting time namespaces.
	TimeOffsets map[string]LinuxTimeOffset `json:"timeOffsets,omitempty"`
}

Linux contains platform-specific configuration for Linux based containers.

type LinuxBlockIO added in v1.0.0 

type LinuxBlockIO struct {
	// Specifies per cgroup weight
	Weight *uint16 `json:"weight,omitempty"`
	// Specifies tasks' weight in the given cgroup while competing with the cgroup's child cgroups, CFQ scheduler only
	LeafWeight *uint16 `json:"leafWeight,omitempty"`
	// Weight per cgroup per device, can override BlkioWeight
	WeightDevice []LinuxWeightDevice `json:"weightDevice,omitempty"`
	// IO read rate limit per cgroup per device, bytes per second
	ThrottleReadBpsDevice []LinuxThrottleDevice `json:"throttleReadBpsDevice,omitempty"`
	// IO write rate limit per cgroup per device, bytes per second
	ThrottleWriteBpsDevice []LinuxThrottleDevice `json:"throttleWriteBpsDevice,omitempty"`
	// IO read rate limit per cgroup per device, IO per second
	ThrottleReadIOPSDevice []LinuxThrottleDevice `json:"throttleReadIOPSDevice,omitempty"`
	// IO write rate limit per cgroup per device, IO per second
	ThrottleWriteIOPSDevice []LinuxThrottleDevice `json:"throttleWriteIOPSDevice,omitempty"`
}

LinuxBlockIO for Linux cgroup 'blkio' resource management

type LinuxBlockIODevice added in v1.1.0 

type LinuxBlockIODevice struct {
	// Major is the device's major number.
	Major int64 `json:"major"`
	// Minor is the device's minor number.
	Minor int64 `json:"minor"`
}

LinuxBlockIODevice holds major:minor format supported in blkio cgroup

type LinuxCPU added in v1.0.0 

type LinuxCPU struct {
	// CPU shares (relative weight (ratio) vs. other cgroups with cpu shares).
	Shares *uint64 `json:"shares,omitempty"`
	// CPU hardcap limit (in usecs). Allowed cpu time in a given period.
	Quota *int64 `json:"quota,omitempty"`
	// CPU hardcap burst limit (in usecs). Allowed accumulated cpu time additionally for burst in a
	// given period.
	Burst *uint64 `json:"burst,omitempty"`
	// CPU period to be used for hardcapping (in usecs).
	Period *uint64 `json:"period,omitempty"`
	// How much time realtime scheduling may use (in usecs).
	RealtimeRuntime *int64 `json:"realtimeRuntime,omitempty"`
	// CPU period to be used for realtime scheduling (in usecs).
	RealtimePeriod *uint64 `json:"realtimePeriod,omitempty"`
	// CPUs to use within the cpuset. Default is to use any CPU available.
	Cpus string `json:"cpus,omitempty"`
	// List of memory nodes in the cpuset. Default is to use any available memory node.
	Mems string `json:"mems,omitempty"`
	// cgroups are configured with minimum weight, 0: default behavior, 1: SCHED_IDLE.
	Idle *int64 `json:"idle,omitempty"`
}

LinuxCPU for Linux cgroup 'cpu' resource management

type LinuxCapabilities added in v1.0.0 

type LinuxCapabilities struct {
	// Bounding is the set of capabilities checked by the kernel.
	Bounding []string `json:"bounding,omitempty" platform:"linux"`
	// Effective is the set of capabilities checked by the kernel.
	Effective []string `json:"effective,omitempty" platform:"linux"`
	// Inheritable is the capabilities preserved across execve.
	Inheritable []string `json:"inheritable,omitempty" platform:"linux"`
	// Permitted is the limiting superset for effective capabilities.
	Permitted []string `json:"permitted,omitempty" platform:"linux"`
	// Ambient is the ambient set of capabilities that are kept.
	Ambient []string `json:"ambient,omitempty" platform:"linux"`
}

LinuxCapabilities specifies the list of allowed capabilities that are kept for a process. http://man7.org/linux/man-pages/man7/capabilities.7.html

type LinuxDevice added in v1.0.0 

type LinuxDevice struct {
	// Path to the device.
	Path string `json:"path"`
	// Device type, block, char, etc.
	Type string `json:"type"`
	// Major is the device's major number.
	Major int64 `json:"major"`
	// Minor is the device's minor number.
	Minor int64 `json:"minor"`
	// FileMode permission bits for the device.
	FileMode *os.FileMode `json:"fileMode,omitempty"`
	// UID of the device.
	UID *uint32 `json:"uid,omitempty"`
	// Gid of the device.
	GID *uint32 `json:"gid,omitempty"`
}

LinuxDevice represents the mknod information for a Linux special device file

type LinuxDeviceCgroup added in v1.0.0 

type LinuxDeviceCgroup struct {
	// Allow or deny
	Allow bool `json:"allow"`
	// Device type, block, char, etc.
	Type string `json:"type,omitempty"`
	// Major is the device's major number.
	Major *int64 `json:"major,omitempty"`
	// Minor is the device's minor number.
	Minor *int64 `json:"minor,omitempty"`
	// Cgroup access permissions format, rwm.
	Access string `json:"access,omitempty"`
}

LinuxDeviceCgroup represents a device rule for the devices specified to the device controller

type LinuxHugepageLimit added in v1.0.0 

type LinuxHugepageLimit struct {
	// Pagesize is the hugepage size.
	// Format: "<size><unit-prefix>B' (e.g. 64KB, 2MB, 1GB, etc.).
	Pagesize string `json:"pageSize"`
	// Limit is the limit of "hugepagesize" hugetlb reservations (if supported) or usage.
	Limit uint64 `json:"limit"`
}

LinuxHugepageLimit structure corresponds to limiting kernel hugepages. Default to reservation limits if supported. Otherwise fallback to page fault limits.

type LinuxIDMapping added in v1.0.0 

type LinuxIDMapping struct {
	// ContainerID is the starting UID/GID in the container
	ContainerID uint32 `json:"containerID"`
	// HostID is the starting UID/GID on the host to be mapped to 'ContainerID'
	HostID uint32 `json:"hostID"`
	// Size is the number of IDs to be mapped
	Size uint32 `json:"size"`
}

LinuxIDMapping specifies UID/GID mappings

type LinuxIOPriority added in v1.1.0 

type LinuxIOPriority struct {
	Class    IOPriorityClass `json:"class"`
	Priority int             `json:"priority"`
}

IOPriority represents I/O priority settings for the container's processes within the process group.

type LinuxIntelRdt added in v1.0.0 

type LinuxIntelRdt struct {
	// The identity for RDT Class of Service
	ClosID string `json:"closID,omitempty"`
	// The schema for L3 cache id and capacity bitmask (CBM)
	// Format: "L3:<cache_id0>=<cbm0>;<cache_id1>=<cbm1>;..."
	L3CacheSchema string `json:"l3CacheSchema,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"`

	// EnableCMT is the flag to indicate if the Intel RDT CMT is enabled. CMT (Cache Monitoring Technology) supports monitoring of
	// the last-level cache (LLC) occupancy for the container.
	EnableCMT bool `json:"enableCMT,omitempty"`

	// EnableMBM is the flag to indicate if the Intel RDT MBM is enabled. MBM (Memory Bandwidth Monitoring) supports monitoring of
	// total and local memory bandwidth for the container.
	EnableMBM bool `json:"enableMBM,omitempty"`
}

LinuxIntelRdt has container runtime resource constraints for Intel RDT CAT and MBA features and flags enabling Intel RDT CMT and MBM features. Intel RDT features are available in Linux 4.14 and newer kernel versions.

type LinuxInterfacePriority added in v1.0.0 

type LinuxInterfacePriority struct {
	// Name is the name of the network interface
	Name string `json:"name"`
	// Priority for the interface
	Priority uint32 `json:"priority"`
}

LinuxInterfacePriority for network interfaces

type LinuxMemory added in v1.0.0 

type LinuxMemory struct {
	// Memory limit (in bytes).
	Limit *int64 `json:"limit,omitempty"`
	// Memory reservation or soft_limit (in bytes).
	Reservation *int64 `json:"reservation,omitempty"`
	// Total memory limit (memory + swap).
	Swap *int64 `json:"swap,omitempty"`
	// Kernel memory limit (in bytes).
	//
	// 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.
	//
	// [kernel v5.4]: https://github.com/torvalds/linux/commit/0158115f702b0ba208ab0
	Kernel *int64 `json:"kernel,omitempty"`
	// Kernel memory limit for tcp (in bytes)
	KernelTCP *int64 `json:"kernelTCP,omitempty"`
	// How aggressive the kernel will swap memory pages.
	Swappiness *uint64 `json:"swappiness,omitempty"`
	// DisableOOMKiller disables the OOM killer for out of memory conditions
	DisableOOMKiller *bool `json:"disableOOMKiller,omitempty"`
	// Enables hierarchical memory accounting
	UseHierarchy *bool `json:"useHierarchy,omitempty"`
	// CheckBeforeUpdate enables checking if a new memory limit is lower
	// than the current usage during update, and if so, rejecting the new
	// limit.
	CheckBeforeUpdate *bool `json:"checkBeforeUpdate,omitempty"`
}

LinuxMemory for Linux cgroup 'memory' resource management

type LinuxNamespace added in v1.0.0 

type LinuxNamespace struct {
	// Type is the type of namespace
	Type LinuxNamespaceType `json:"type"`
	// Path is a path to an existing namespace persisted on disk that can be joined
	// and is of the same type
	Path string `json:"path,omitempty"`
}

LinuxNamespace is the configuration for a Linux namespace

type LinuxNamespaceType added in v1.0.0 

type LinuxNamespaceType string

LinuxNamespaceType is one of the Linux namespaces 

const (
	// PIDNamespace for isolating process IDs
	PIDNamespace LinuxNamespaceType = "pid"
	// NetworkNamespace for isolating network devices, stacks, ports, etc
	NetworkNamespace LinuxNamespaceType = "network"
	// MountNamespace for isolating mount points
	MountNamespace LinuxNamespaceType = "mount"
	// IPCNamespace for isolating System V IPC, POSIX message queues
	IPCNamespace LinuxNamespaceType = "ipc"
	// UTSNamespace for isolating hostname and NIS domain name
	UTSNamespace LinuxNamespaceType = "uts"
	// UserNamespace for isolating user and group IDs
	UserNamespace LinuxNamespaceType = "user"
	// CgroupNamespace for isolating cgroup hierarchies
	CgroupNamespace LinuxNamespaceType = "cgroup"
	// TimeNamespace for isolating the clocks
	TimeNamespace LinuxNamespaceType = "time"
)

type LinuxNetwork added in v1.0.0 

type LinuxNetwork struct {
	// Set class identifier for container's network packets
	ClassID *uint32 `json:"classID,omitempty"`
	// Set priority of network traffic for container
	Priorities []LinuxInterfacePriority `json:"priorities,omitempty"`
}

LinuxNetwork identification and priority configuration

type LinuxPersonality added in v1.0.2 

type LinuxPersonality struct {
	// Domain for the personality
	Domain LinuxPersonalityDomain `json:"domain"`
	// Additional flags
	Flags []LinuxPersonalityFlag `json:"flags,omitempty"`
}

LinuxPersonality represents the Linux personality syscall input

type LinuxPersonalityDomain added in v1.0.2 

type LinuxPersonalityDomain string

LinuxPersonalityDomain refers to a personality domain. 

const (
	// PerLinux is the standard Linux personality
	PerLinux LinuxPersonalityDomain = "LINUX"
	// PerLinux32 sets personality to 32 bit
	PerLinux32 LinuxPersonalityDomain = "LINUX32"
)

Define domain and flags for Personality

type LinuxPersonalityFlag added in v1.0.2 

type LinuxPersonalityFlag string

LinuxPersonalityFlag refers to an additional personality flag. None are currently defined.

type LinuxPids added in v1.0.0 

type LinuxPids struct {
	// Maximum number of PIDs. Default is "no limit".
	Limit int64 `json:"limit"`
}

LinuxPids for Linux cgroup 'pids' resource management (Linux 4.3)

type LinuxRdma added in v1.0.2 

type LinuxRdma struct {
	// Maximum number of HCA handles that can be opened. Default is "no limit".
	HcaHandles *uint32 `json:"hcaHandles,omitempty"`
	// Maximum number of HCA objects that can be created. Default is "no limit".
	HcaObjects *uint32 `json:"hcaObjects,omitempty"`
}

LinuxRdma for Linux cgroup 'rdma' resource management (Linux 4.11)

type LinuxResources added in v1.0.0 

type LinuxResources struct {
	// Devices configures the device allowlist.
	Devices []LinuxDeviceCgroup `json:"devices,omitempty"`
	// Memory restriction configuration
	Memory *LinuxMemory `json:"memory,omitempty"`
	// CPU resource restriction configuration
	CPU *LinuxCPU `json:"cpu,omitempty"`
	// Task resource restriction configuration.
	Pids *LinuxPids `json:"pids,omitempty"`
	// BlockIO restriction configuration
	BlockIO *LinuxBlockIO `json:"blockIO,omitempty"`
	// Hugetlb limits (in bytes). Default to reservation limits if supported.
	HugepageLimits []LinuxHugepageLimit `json:"hugepageLimits,omitempty"`
	// Network restriction configuration
	Network *LinuxNetwork `json:"network,omitempty"`
	// Rdma resource restriction configuration.
	// Limits are a set of key value pairs that define RDMA resource limits,
	// where the key is device name and value is resource limits.
	Rdma map[string]LinuxRdma `json:"rdma,omitempty"`
	// Unified resources.
	Unified map[string]string `json:"unified,omitempty"`
}

LinuxResources has container runtime resource constraints

type LinuxSchedulerFlag added in v1.1.0 

type LinuxSchedulerFlag string

LinuxSchedulerFlag represents the flags used by the Linux Scheduler. 

const (
	// SchedFlagResetOnFork represents the reset on fork scheduling flag
	SchedFlagResetOnFork LinuxSchedulerFlag = "SCHED_FLAG_RESET_ON_FORK"
	// SchedFlagReclaim represents the reclaim scheduling flag
	SchedFlagReclaim LinuxSchedulerFlag = "SCHED_FLAG_RECLAIM"
	// SchedFlagDLOverrun represents the deadline overrun scheduling flag
	SchedFlagDLOverrun LinuxSchedulerFlag = "SCHED_FLAG_DL_OVERRUN"
	// SchedFlagKeepPolicy represents the keep policy scheduling flag
	SchedFlagKeepPolicy LinuxSchedulerFlag = "SCHED_FLAG_KEEP_POLICY"
	// SchedFlagKeepParams represents the keep parameters scheduling flag
	SchedFlagKeepParams LinuxSchedulerFlag = "SCHED_FLAG_KEEP_PARAMS"
	// SchedFlagUtilClampMin represents the utilization clamp minimum scheduling flag
	SchedFlagUtilClampMin LinuxSchedulerFlag = "SCHED_FLAG_UTIL_CLAMP_MIN"
	// SchedFlagUtilClampMin represents the utilization clamp maximum scheduling flag
	SchedFlagUtilClampMax LinuxSchedulerFlag = "SCHED_FLAG_UTIL_CLAMP_MAX"
)

type LinuxSchedulerPolicy added in v1.1.0 

type LinuxSchedulerPolicy string

LinuxSchedulerPolicy represents different scheduling policies used with the Linux Scheduler 

const (
	// SchedOther is the default scheduling policy
	SchedOther LinuxSchedulerPolicy = "SCHED_OTHER"
	// SchedFIFO is the First-In-First-Out scheduling policy
	SchedFIFO LinuxSchedulerPolicy = "SCHED_FIFO"
	// SchedRR is the Round-Robin scheduling policy
	SchedRR LinuxSchedulerPolicy = "SCHED_RR"
	// SchedBatch is the Batch scheduling policy
	SchedBatch LinuxSchedulerPolicy = "SCHED_BATCH"
	// SchedISO is the Isolation scheduling policy
	SchedISO LinuxSchedulerPolicy = "SCHED_ISO"
	// SchedIdle is the Idle scheduling policy
	SchedIdle LinuxSchedulerPolicy = "SCHED_IDLE"
	// SchedDeadline is the Deadline scheduling policy
	SchedDeadline LinuxSchedulerPolicy = "SCHED_DEADLINE"
)

type LinuxSeccomp added in v1.0.0 

type LinuxSeccomp struct {
	DefaultAction    LinuxSeccompAction `json:"defaultAction"`
	DefaultErrnoRet  *uint              `json:"defaultErrnoRet,omitempty"`
	Architectures    []Arch             `json:"architectures,omitempty"`
	Flags            []LinuxSeccompFlag `json:"flags,omitempty"`
	ListenerPath     string             `json:"listenerPath,omitempty"`
	ListenerMetadata string             `json:"listenerMetadata,omitempty"`
	Syscalls         []LinuxSyscall     `json:"syscalls,omitempty"`
}

LinuxSeccomp represents syscall restrictions

type LinuxSeccompAction added in v1.0.0 

type LinuxSeccompAction string

LinuxSeccompAction taken upon Seccomp rule match 

const (
	ActKill        LinuxSeccompAction = "SCMP_ACT_KILL"
	ActKillProcess LinuxSeccompAction = "SCMP_ACT_KILL_PROCESS"
	ActKillThread  LinuxSeccompAction = "SCMP_ACT_KILL_THREAD"
	ActTrap        LinuxSeccompAction = "SCMP_ACT_TRAP"
	ActErrno       LinuxSeccompAction = "SCMP_ACT_ERRNO"
	ActTrace       LinuxSeccompAction = "SCMP_ACT_TRACE"
	ActAllow       LinuxSeccompAction = "SCMP_ACT_ALLOW"
	ActLog         LinuxSeccompAction = "SCMP_ACT_LOG"
	ActNotify      LinuxSeccompAction = "SCMP_ACT_NOTIFY"
)

Define actions for Seccomp rules

type LinuxSeccompArg added in v1.0.0 

type LinuxSeccompArg struct {
	Index    uint                 `json:"index"`
	Value    uint64               `json:"value"`
	ValueTwo uint64               `json:"valueTwo,omitempty"`
	Op       LinuxSeccompOperator `json:"op"`
}

LinuxSeccompArg used for matching specific syscall arguments in Seccomp

type LinuxSeccompFlag added in v1.0.2 

type LinuxSeccompFlag string

LinuxSeccompFlag is a flag to pass to seccomp(2). 

const (
	// LinuxSeccompFlagLog is a seccomp flag to request all returned
	// actions except SECCOMP_RET_ALLOW to be logged. An administrator may
	// override this filter flag by preventing specific actions from being
	// logged via the /proc/sys/kernel/seccomp/actions_logged file. (since
	// Linux 4.14)
	LinuxSeccompFlagLog LinuxSeccompFlag = "SECCOMP_FILTER_FLAG_LOG"

	// LinuxSeccompFlagSpecAllow can be used to disable Speculative Store
	// Bypass mitigation. (since Linux 4.17)
	LinuxSeccompFlagSpecAllow LinuxSeccompFlag = "SECCOMP_FILTER_FLAG_SPEC_ALLOW"

	// LinuxSeccompFlagWaitKillableRecv can be used to switch to the wait
	// killable semantics. (since Linux 5.19)
	LinuxSeccompFlagWaitKillableRecv LinuxSeccompFlag = "SECCOMP_FILTER_FLAG_WAIT_KILLABLE_RECV"
)

type LinuxSeccompOperator added in v1.0.0 

type LinuxSeccompOperator string

LinuxSeccompOperator used to match syscall arguments in Seccomp 

const (
	OpNotEqual     LinuxSeccompOperator = "SCMP_CMP_NE"
	OpLessThan     LinuxSeccompOperator = "SCMP_CMP_LT"
	OpLessEqual    LinuxSeccompOperator = "SCMP_CMP_LE"
	OpEqualTo      LinuxSeccompOperator = "SCMP_CMP_EQ"
	OpGreaterEqual LinuxSeccompOperator = "SCMP_CMP_GE"
	OpGreaterThan  LinuxSeccompOperator = "SCMP_CMP_GT"
	OpMaskedEqual  LinuxSeccompOperator = "SCMP_CMP_MASKED_EQ"
)

Define operators for syscall arguments in Seccomp

type LinuxSyscall added in v1.0.0 

type LinuxSyscall struct {
	Names    []string           `json:"names"`
	Action   LinuxSeccompAction `json:"action"`
	ErrnoRet *uint              `json:"errnoRet,omitempty"`
	Args     []LinuxSeccompArg  `json:"args,omitempty"`
}

LinuxSyscall is used to match a syscall in Seccomp

type LinuxThrottleDevice added in v1.0.0 

type LinuxThrottleDevice struct {
	LinuxBlockIODevice
	// Rate is the IO rate limit per cgroup per device
	Rate uint64 `json:"rate"`
}

LinuxThrottleDevice struct holds a `major:minor rate_per_second` pair

type LinuxTimeOffset added in v1.1.0 

type LinuxTimeOffset struct {
	// Secs is the offset of clock (in secs) in the container
	Secs int64 `json:"secs,omitempty"`
	// Nanosecs is the additional offset for Secs (in nanosecs)
	Nanosecs uint32 `json:"nanosecs,omitempty"`
}

LinuxTimeOffset specifies the offset for Time Namespace

type LinuxWeightDevice added in v1.0.0 

type LinuxWeightDevice struct {
	LinuxBlockIODevice
	// Weight is the bandwidth rate for the device.
	Weight *uint16 `json:"weight,omitempty"`
	// LeafWeight is the bandwidth rate for the device while competing with the cgroup's child cgroups, CFQ scheduler only
	LeafWeight *uint16 `json:"leafWeight,omitempty"`
}

LinuxWeightDevice struct holds a `major:minor weight` pair for weightDevice

type Mount 

type Mount struct {
	// Destination is the absolute path where the mount will be placed in the container.
	Destination string `json:"destination"`
	// Type specifies the mount kind.
	Type string `json:"type,omitempty" platform:"linux,solaris,zos"`
	// Source specifies the source path of the mount.
	Source string `json:"source,omitempty"`
	// Options are fstab style mount options.
	Options []string `json:"options,omitempty"`

	// UID/GID mappings used for changing file owners w/o calling chown, fs should support it.
	// Every mount point could have its own mapping.
	UIDMappings []LinuxIDMapping `json:"uidMappings,omitempty" platform:"linux"`
	GIDMappings []LinuxIDMapping `json:"gidMappings,omitempty" platform:"linux"`
}

Mount specifies a mount for a container.

type POSIXRlimit added in v1.0.0 

type POSIXRlimit struct {
	// Type of the rlimit to set
	Type string `json:"type"`
	// Hard is the hard limit for the specified type
	Hard uint64 `json:"hard"`
	// Soft is the soft limit for the specified type
	Soft uint64 `json:"soft"`
}

POSIXRlimit type and restrictions

type Process 

type Process struct {
	// Terminal creates an interactive terminal for the container.
	Terminal bool `json:"terminal,omitempty"`
	// ConsoleSize specifies the size of the console.
	ConsoleSize *Box `json:"consoleSize,omitempty"`
	// User specifies user information for the process.
	User User `json:"user"`
	// Args specifies the binary and arguments for the application to execute.
	Args []string `json:"args,omitempty"`
	// CommandLine specifies the full command line for the application to execute on Windows.
	CommandLine string `json:"commandLine,omitempty" platform:"windows"`
	// Env populates the process environment for the process.
	Env []string `json:"env,omitempty"`
	// Cwd is the current working directory for the process and must be
	// relative to the container's root.
	Cwd string `json:"cwd"`
	// Capabilities are Linux capabilities that are kept for the process.
	Capabilities *LinuxCapabilities `json:"capabilities,omitempty" platform:"linux"`
	// Rlimits specifies rlimit options to apply to the process.
	Rlimits []POSIXRlimit `json:"rlimits,omitempty" platform:"linux,solaris,zos"`
	// NoNewPrivileges controls whether additional privileges could be gained by processes in the container.
	NoNewPrivileges bool `json:"noNewPrivileges,omitempty" platform:"linux"`
	// ApparmorProfile specifies the apparmor profile for the container.
	ApparmorProfile string `json:"apparmorProfile,omitempty" platform:"linux"`
	// Specify an oom_score_adj for the container.
	OOMScoreAdj *int `json:"oomScoreAdj,omitempty" platform:"linux"`
	// Scheduler specifies the scheduling attributes for a process
	Scheduler *Scheduler `json:"scheduler,omitempty" platform:"linux"`
	// SelinuxLabel specifies the selinux context that the container process is run as.
	SelinuxLabel string `json:"selinuxLabel,omitempty" platform:"linux"`
	// IOPriority contains the I/O priority settings for the cgroup.
	IOPriority *LinuxIOPriority `json:"ioPriority,omitempty" platform:"linux"`
}

Process contains information to start a specific application inside the container.

type Root 

type Root struct {
	// Path is the absolute path to the container's root filesystem.
	Path string `json:"path"`
	// Readonly makes the root filesystem for the container readonly before the process is executed.
	Readonly bool `json:"readonly,omitempty"`
}

Root contains information about the container's root filesystem on the host.

type Scheduler added in v1.1.0 

type Scheduler struct {
	// Policy represents the scheduling policy (e.g., SCHED_FIFO, SCHED_RR, SCHED_OTHER).
	Policy LinuxSchedulerPolicy `json:"policy"`

	// Nice is the nice value for the process, which affects its priority.
	Nice int32 `json:"nice,omitempty"`

	// Priority represents the static priority of the process.
	Priority int32 `json:"priority,omitempty"`

	// Flags is an array of scheduling flags.
	Flags []LinuxSchedulerFlag `json:"flags,omitempty"`

	// Runtime is the amount of time in nanoseconds during which the process
	// is allowed to run in a given period.
	Runtime uint64 `json:"runtime,omitempty"`

	// Deadline is the absolute deadline for the process to complete its execution.
	Deadline uint64 `json:"deadline,omitempty"`

	// Period is the length of the period in nanoseconds used for determining the process runtime.
	Period uint64 `json:"period,omitempty"`
}

Scheduler represents the scheduling attributes for a process. It is based on the Linux sched_setattr(2) syscall.

type Solaris added in v1.0.0 

type Solaris struct {
	// SMF FMRI which should go "online" before we start the container process.
	Milestone string `json:"milestone,omitempty"`
	// Maximum set of privileges any process in this container can obtain.
	LimitPriv string `json:"limitpriv,omitempty"`
	// The maximum amount of shared memory allowed for this container.
	MaxShmMemory string `json:"maxShmMemory,omitempty"`
	// Specification for automatic creation of network resources for this container.
	Anet []SolarisAnet `json:"anet,omitempty"`
	// Set limit on the amount of CPU time that can be used by container.
	CappedCPU *SolarisCappedCPU `json:"cappedCPU,omitempty"`
	// The physical and swap caps on the memory that can be used by this container.
	CappedMemory *SolarisCappedMemory `json:"cappedMemory,omitempty"`
}

Solaris contains platform-specific configuration for Solaris application containers.

type SolarisAnet added in v1.0.0 

type SolarisAnet struct {
	// Specify a name for the automatically created VNIC datalink.
	Linkname string `json:"linkname,omitempty"`
	// Specify the link over which the VNIC will be created.
	Lowerlink string `json:"lowerLink,omitempty"`
	// The set of IP addresses that the container can use.
	Allowedaddr string `json:"allowedAddress,omitempty"`
	// Specifies whether allowedAddress limitation is to be applied to the VNIC.
	Configallowedaddr string `json:"configureAllowedAddress,omitempty"`
	// The value of the optional default router.
	Defrouter string `json:"defrouter,omitempty"`
	// Enable one or more types of link protection.
	Linkprotection string `json:"linkProtection,omitempty"`
	// Set the VNIC's macAddress
	Macaddress string `json:"macAddress,omitempty"`
}

SolarisAnet provides the specification for automatic creation of network resources for this container.

type SolarisCappedCPU added in v1.0.0 

type SolarisCappedCPU struct {
	Ncpus string `json:"ncpus,omitempty"`
}

SolarisCappedCPU allows users to set limit on the amount of CPU time that can be used by container.

type SolarisCappedMemory added in v1.0.0 

type SolarisCappedMemory struct {
	Physical string `json:"physical,omitempty"`
	Swap     string `json:"swap,omitempty"`
}

SolarisCappedMemory allows users to set the physical and swap caps on the memory that can be used by this container.

type Spec 

type Spec struct {
	// Version of the Open Container Initiative Runtime Specification with which the bundle complies.
	Version string `json:"ociVersion"`
	// Process configures the container process.
	Process *Process `json:"process,omitempty"`
	// Root configures the container's root filesystem.
	Root *Root `json:"root,omitempty"`
	// Hostname configures the container's hostname.
	Hostname string `json:"hostname,omitempty"`
	// Domainname configures the container's domainname.
	Domainname string `json:"domainname,omitempty"`
	// Mounts configures additional mounts (on top of Root).
	Mounts []Mount `json:"mounts,omitempty"`
	// Hooks configures callbacks for container lifecycle events.
	Hooks *Hooks `json:"hooks,omitempty" platform:"linux,solaris,zos"`
	// Annotations contains arbitrary metadata for the container.
	Annotations map[string]string `json:"annotations,omitempty"`

	// Linux is platform-specific configuration for Linux based containers.
	Linux *Linux `json:"linux,omitempty" platform:"linux"`
	// Solaris is platform-specific configuration for Solaris based containers.
	Solaris *Solaris `json:"solaris,omitempty" platform:"solaris"`
	// Windows is platform-specific configuration for Windows based containers.
	Windows *Windows `json:"windows,omitempty" platform:"windows"`
	// VM specifies configuration for virtual-machine-based containers.
	VM *VM `json:"vm,omitempty" platform:"vm"`
	// ZOS is platform-specific configuration for z/OS based containers.
	ZOS *ZOS `json:"zos,omitempty" platform:"zos"`
}

Spec is the base configuration for the container.

type State 

type State struct {
	// Version is the version of the specification that is supported.
	Version string `json:"ociVersion"`
	// ID is the container ID
	ID string `json:"id"`
	// Status is the runtime status of the container.
	Status ContainerState `json:"status"`
	// Pid is the process ID for the container process.
	Pid int `json:"pid,omitempty"`
	// Bundle is the path to the container's bundle directory.
	Bundle string `json:"bundle"`
	// Annotations are key values associated with the container.
	Annotations map[string]string `json:"annotations,omitempty"`
}

State holds information about the runtime state of the container.

type User 

type User struct {
	// UID is the user id.
	UID uint32 `json:"uid" platform:"linux,solaris,zos"`
	// GID is the group id.
	GID uint32 `json:"gid" platform:"linux,solaris,zos"`
	// Umask is the umask for the init process.
	Umask *uint32 `json:"umask,omitempty" platform:"linux,solaris,zos"`
	// AdditionalGids are additional group ids set for the container's process.
	AdditionalGids []uint32 `json:"additionalGids,omitempty" platform:"linux,solaris"`
	// Username is the user name.
	Username string `json:"username,omitempty" platform:"windows"`
}

User specifies specific user (and group) information for the container process.

type VM added in v1.0.2 

type VM struct {
	// Hypervisor specifies hypervisor-related configuration for virtual-machine-based containers.
	Hypervisor VMHypervisor `json:"hypervisor,omitempty"`
	// Kernel specifies kernel-related configuration for virtual-machine-based containers.
	Kernel VMKernel `json:"kernel"`
	// Image specifies guest image related configuration for virtual-machine-based containers.
	Image VMImage `json:"image,omitempty"`
}

VM contains information for virtual-machine-based containers.

type VMHypervisor added in v1.0.2 

type VMHypervisor struct {
	// Path is the host path to the hypervisor used to manage the virtual machine.
	Path string `json:"path"`
	// Parameters specifies parameters to pass to the hypervisor.
	Parameters []string `json:"parameters,omitempty"`
}

VMHypervisor contains information about the hypervisor to use for a virtual machine.

type VMImage added in v1.0.2 

type VMImage struct {
	// Path is the host path to the root image that the VM kernel would boot into.
	Path string `json:"path"`
	// Format is the root image format type (e.g. "qcow2", "raw", "vhd", etc).
	Format string `json:"format"`
}

VMImage contains information about the virtual machine root image.

type VMKernel added in v1.0.2 

type VMKernel struct {
	// Path is the host path to the kernel used to boot the virtual machine.
	Path string `json:"path"`
	// Parameters specifies parameters to pass to the kernel.
	Parameters []string `json:"parameters,omitempty"`
	// InitRD is the host path to an initial ramdisk to be used by the kernel.
	InitRD string `json:"initrd,omitempty"`
}

VMKernel contains information about the kernel to use for a virtual machine.

type Windows added in v1.0.0 

type Windows struct {
	// LayerFolders contains a list of absolute paths to directories containing image layers.
	LayerFolders []string `json:"layerFolders"`
	// Devices are the list of devices to be mapped into the container.
	Devices []WindowsDevice `json:"devices,omitempty"`
	// Resources contains information for handling resource constraints for the container.
	Resources *WindowsResources `json:"resources,omitempty"`
	// CredentialSpec contains a JSON object describing a group Managed Service Account (gMSA) specification.
	CredentialSpec interface{} `json:"credentialSpec,omitempty"`
	// Servicing indicates if the container is being started in a mode to apply a Windows Update servicing operation.
	Servicing bool `json:"servicing,omitempty"`
	// IgnoreFlushesDuringBoot indicates if the container is being started in a mode where disk writes are not flushed during its boot process.
	IgnoreFlushesDuringBoot bool `json:"ignoreFlushesDuringBoot,omitempty"`
	// HyperV contains information for running a container with Hyper-V isolation.
	HyperV *WindowsHyperV `json:"hyperv,omitempty"`
	// Network restriction configuration.
	Network *WindowsNetwork `json:"network,omitempty"`
}

Windows defines the runtime configuration for Windows based containers, including Hyper-V containers.

type WindowsCPUResources added in v1.0.0 

type WindowsCPUResources struct {
	// Count is the number of CPUs available to the container. It represents the
	// fraction of the configured processor `count` in a container in relation
	// to the processors available in the host. The fraction ultimately
	// determines the portion of processor cycles that the threads in a
	// container can use during each scheduling interval, as the number of
	// cycles per 10,000 cycles.
	Count *uint64 `json:"count,omitempty"`
	// Shares limits the share of processor time given to the container relative
	// to other workloads on the processor. The processor `shares` (`weight` at
	// the platform level) is a value between 0 and 10000.
	Shares *uint16 `json:"shares,omitempty"`
	// Maximum determines the portion of processor cycles that the threads in a
	// container can use during each scheduling interval, as the number of
	// cycles per 10,000 cycles. Set processor `maximum` to a percentage times
	// 100.
	Maximum *uint16 `json:"maximum,omitempty"`
}

WindowsCPUResources contains CPU resource management settings.

type WindowsDevice added in v1.0.2 

type WindowsDevice struct {
	// Device identifier: interface class GUID, etc.
	ID string `json:"id"`
	// Device identifier type: "class", etc.
	IDType string `json:"idType"`
}

WindowsDevice represents information about a host device to be mapped into the container.

type WindowsHyperV added in v1.0.0 

type WindowsHyperV struct {
	// UtilityVMPath is an optional path to the image used for the Utility VM.
	UtilityVMPath string `json:"utilityVMPath,omitempty"`
}

WindowsHyperV contains information for configuring a container to run with Hyper-V isolation.

type WindowsMemoryResources added in v1.0.0 

type WindowsMemoryResources struct {
	// Memory limit in bytes.
	Limit *uint64 `json:"limit,omitempty"`
}

WindowsMemoryResources contains memory resource management settings.

type WindowsNetwork added in v1.0.0 

type WindowsNetwork struct {
	// List of HNS endpoints that the container should connect to.
	EndpointList []string `json:"endpointList,omitempty"`
	// Specifies if unqualified DNS name resolution is allowed.
	AllowUnqualifiedDNSQuery bool `json:"allowUnqualifiedDNSQuery,omitempty"`
	// Comma separated list of DNS suffixes to use for name resolution.
	DNSSearchList []string `json:"DNSSearchList,omitempty"`
	// Name (ID) of the container that we will share with the network stack.
	NetworkSharedContainerName string `json:"networkSharedContainerName,omitempty"`
	// name (ID) of the network namespace that will be used for the container.
	NetworkNamespace string `json:"networkNamespace,omitempty"`
}

WindowsNetwork contains network settings for Windows containers.

type WindowsResources added in v1.0.0 

type WindowsResources struct {
	// Memory restriction configuration.
	Memory *WindowsMemoryResources `json:"memory,omitempty"`
	// CPU resource restriction configuration.
	CPU *WindowsCPUResources `json:"cpu,omitempty"`
	// Storage restriction configuration.
	Storage *WindowsStorageResources `json:"storage,omitempty"`
}

WindowsResources has container runtime resource constraints for containers running on Windows.

type WindowsStorageResources added in v1.0.0 

type WindowsStorageResources struct {
	// Specifies maximum Iops for the system drive.
	Iops *uint64 `json:"iops,omitempty"`
	// Specifies maximum bytes per second for the system drive.
	Bps *uint64 `json:"bps,omitempty"`
	// Sandbox size specifies the minimum size of the system drive in bytes.
	SandboxSize *uint64 `json:"sandboxSize,omitempty"`
}

WindowsStorageResources contains storage resource management settings.

type ZOS added in v1.1.0 

type ZOS struct {
	// Devices are a list of device nodes that are created for the container
	Devices []ZOSDevice `json:"devices,omitempty"`
}

ZOS contains platform-specific configuration for z/OS based containers.

type ZOSDevice added in v1.1.0 

type ZOSDevice struct {
	// Path to the device.
	Path string `json:"path"`
	// Device type, block, char, etc.
	Type string `json:"type"`
	// Major is the device's major number.
	Major int64 `json:"major"`
	// Minor is the device's minor number.
	Minor int64 `json:"minor"`
	// FileMode permission bits for the device.
	FileMode *os.FileMode `json:"fileMode,omitempty"`
	// UID of the device.
	UID *uint32 `json:"uid,omitempty"`
	// Gid of the device.
	GID *uint32 `json:"gid,omitempty"`
}

ZOSDevice represents the mknod information for a z/OS special device file

Source Files

View all Source files

Directories

Path Synopsis
Package features provides the Features struct.
 Package features provides the Features struct.

Jump to

Keyboard shortcuts

? : This menu
/ : Search site
f or F : Jump to
y or Y : Canonical URL
go.dev uses cookies from Google to deliver and enhance the quality of its services and to analyze traffic. Learn more.