moby/api/types/types.go

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package types // import "github.com/docker/docker/api/types"
import (
"errors"
"fmt"
"io"
"os"
"strings"
"time"
"github.com/docker/docker/api/types/container"
"github.com/docker/docker/api/types/filters"
"github.com/docker/docker/api/types/mount"
"github.com/docker/docker/api/types/network"
"github.com/docker/docker/api/types/registry"
"github.com/docker/docker/api/types/swarm"
"github.com/docker/go-connections/nat"
)
// RootFS returns Image's RootFS description including the layer IDs.
type RootFS struct {
Type string
Layers []string `json:",omitempty"`
BaseLayer string `json:",omitempty"`
}
// ImageInspect contains response of Engine API:
// GET "/images/{name:.*}/json"
type ImageInspect struct {
ID string `json:"Id"`
RepoTags []string
RepoDigests []string
Parent string
Comment string
Created string
Container string
ContainerConfig *container.Config
DockerVersion string
Author string
Config *container.Config
Architecture string
Variant string `json:",omitempty"`
Os string
OsVersion string `json:",omitempty"`
Size int64
VirtualSize int64
GraphDriver GraphDriverData
RootFS RootFS
Metadata ImageMetadata
}
// ImageMetadata contains engine-local data about the image
type ImageMetadata struct {
LastTagTime time.Time `json:",omitempty"`
}
// Container contains response of Engine API:
// GET "/containers/json"
type Container struct {
ID string `json:"Id"`
Names []string
Image string
ImageID string
Command string
Created int64
Ports []Port
SizeRw int64 `json:",omitempty"`
SizeRootFs int64 `json:",omitempty"`
Labels map[string]string
State string
Status string
HostConfig struct {
NetworkMode string `json:",omitempty"`
}
NetworkSettings *SummaryNetworkSettings
Mounts []MountPoint
}
// CopyConfig contains request body of Engine API:
// POST "/containers/"+containerID+"/copy"
type CopyConfig struct {
Resource string
}
// ContainerPathStat is used to encode the header from
// GET "/containers/{name:.*}/archive"
// "Name" is the file or directory name.
type ContainerPathStat struct {
Name string `json:"name"`
Size int64 `json:"size"`
Mode os.FileMode `json:"mode"`
Mtime time.Time `json:"mtime"`
LinkTarget string `json:"linkTarget"`
}
// ContainerStats contains response of Engine API:
// GET "/stats"
type ContainerStats struct {
Body io.ReadCloser `json:"body"`
OSType string `json:"ostype"`
}
// Ping contains response of Engine API:
// GET "/_ping"
type Ping struct {
APIVersion string
OSType string
Experimental bool
BuilderVersion BuilderVersion
}
// ComponentVersion describes the version information for a specific component.
type ComponentVersion struct {
Name string
Version string
Details map[string]string `json:",omitempty"`
}
// Version contains response of Engine API:
// GET "/version"
type Version struct {
Platform struct{ Name string } `json:",omitempty"`
Components []ComponentVersion `json:",omitempty"`
// The following fields are deprecated, they relate to the Engine component and are kept for backwards compatibility
Version string
APIVersion string `json:"ApiVersion"`
MinAPIVersion string `json:"MinAPIVersion,omitempty"`
GitCommit string
GoVersion string
Os string
Arch string
KernelVersion string `json:",omitempty"`
Experimental bool `json:",omitempty"`
BuildTime string `json:",omitempty"`
}
// Commit holds the Git-commit (SHA1) that a binary was built from, as reported
// in the version-string of external tools, such as containerd, or runC.
type Commit struct {
ID string // ID is the actual commit ID of external tool.
Expected string // Expected is the commit ID of external tool expected by dockerd as set at build time.
}
// Info contains response of Engine API:
// GET "/info"
type Info struct {
ID string
Containers int
ContainersRunning int
ContainersPaused int
ContainersStopped int
Images int
Driver string
DriverStatus [][2]string
SystemStatus [][2]string `json:",omitempty"` // SystemStatus is only propagated by the Swarm standalone API
Plugins PluginsInfo
MemoryLimit bool
SwapLimit bool
KernelMemory bool
KernelMemoryTCP bool
CPUCfsPeriod bool `json:"CpuCfsPeriod"`
CPUCfsQuota bool `json:"CpuCfsQuota"`
CPUShares bool
CPUSet bool
PidsLimit bool
IPv4Forwarding bool
BridgeNfIptables bool
BridgeNfIP6tables bool `json:"BridgeNfIp6tables"`
Debug bool
NFd int
OomKillDisable bool
NGoroutines int
SystemTime string
LoggingDriver string
CgroupDriver string
CgroupVersion string `json:",omitempty"`
NEventsListener int
KernelVersion string
OperatingSystem string
OSVersion string
OSType string
Architecture string
IndexServerAddress string
RegistryConfig *registry.ServiceConfig
NCPU int
MemTotal int64
GenericResources []swarm.GenericResource
DockerRootDir string
HTTPProxy string `json:"HttpProxy"`
HTTPSProxy string `json:"HttpsProxy"`
NoProxy string
Name string
Labels []string
ExperimentalBuild bool
ServerVersion string
ClusterStore string `json:",omitempty"` // Deprecated: host-discovery and overlay networks with external k/v stores are deprecated
ClusterAdvertise string `json:",omitempty"` // Deprecated: host-discovery and overlay networks with external k/v stores are deprecated
Runtimes map[string]Runtime
DefaultRuntime string
Swarm swarm.Info
// LiveRestoreEnabled determines whether containers should be kept
// running when the daemon is shutdown or upon daemon start if
// running containers are detected
LiveRestoreEnabled bool
Isolation container.Isolation
InitBinary string
ContainerdCommit Commit
RuncCommit Commit
InitCommit Commit
SecurityOptions []string
ProductLicense string `json:",omitempty"`
Add "Warnings" to /info endpoint, and move detection to the daemon When requesting information about the daemon's configuration through the `/info` endpoint, missing features (or non-recommended settings) may have to be presented to the user. Detecting these situations, and printing warnings currently is handled by the cli, which results in some complications: - duplicated effort: each client has to re-implement detection and warnings. - it's not possible to generate warnings for reasons outside of the information returned in the `/info` response. - cli-side detection has to be updated for new conditions. This means that an older cli connecting to a new daemon may not print all warnings (due to it not detecting the new conditions) - some warnings (in particular, warnings about storage-drivers) depend on driver-status (`DriverStatus`) information. The format of the information returned in this field is not part of the API specification and can change over time, resulting in cli-side detection no longer being functional. This patch adds a new `Warnings` field to the `/info` response. This field is to return warnings to be presented by the user. Existing warnings that are currently handled by the CLI are copied to the daemon as part of this patch; This change is backward-compatible with existing clients; old client can continue to use the client-side warnings, whereas new clients can skip client-side detection, and print warnings that are returned by the daemon. Example response with this patch applied; ```bash curl --unix-socket /var/run/docker.sock http://localhost/info | jq .Warnings ``` ```json [ "WARNING: bridge-nf-call-iptables is disabled", "WARNING: bridge-nf-call-ip6tables is disabled" ] ``` Signed-off-by: Sebastiaan van Stijn <github@gone.nl>
2018-07-19 11:45:32 +00:00
Warnings []string
}
// KeyValue holds a key/value pair
type KeyValue struct {
Key, Value string
}
// SecurityOpt contains the name and options of a security option
type SecurityOpt struct {
Name string
Options []KeyValue
}
// DecodeSecurityOptions decodes a security options string slice to a type safe
// SecurityOpt
func DecodeSecurityOptions(opts []string) ([]SecurityOpt, error) {
so := []SecurityOpt{}
for _, opt := range opts {
// support output from a < 1.13 docker daemon
if !strings.Contains(opt, "=") {
so = append(so, SecurityOpt{Name: opt})
continue
}
secopt := SecurityOpt{}
split := strings.Split(opt, ",")
for _, s := range split {
kv := strings.SplitN(s, "=", 2)
if len(kv) != 2 {
return nil, fmt.Errorf("invalid security option %q", s)
}
if kv[0] == "" || kv[1] == "" {
return nil, errors.New("invalid empty security option")
}
if kv[0] == "name" {
secopt.Name = kv[1]
continue
}
secopt.Options = append(secopt.Options, KeyValue{Key: kv[0], Value: kv[1]})
}
so = append(so, secopt)
}
return so, nil
}
// PluginsInfo is a temp struct holding Plugins name
// registered with docker daemon. It is used by Info struct
type PluginsInfo struct {
// List of Volume plugins registered
Volume []string
// List of Network plugins registered
Network []string
// List of Authorization plugins registered
Authorization []string
// List of Log plugins registered
Log []string
}
// ExecStartCheck is a temp struct used by execStart
// Config fields is part of ExecConfig in runconfig package
type ExecStartCheck struct {
// ExecStart will first check if it's detached
Detach bool
// Check if there's a tty
Tty bool
}
// HealthcheckResult stores information about a single run of a healthcheck probe
type HealthcheckResult struct {
Start time.Time // Start is the time this check started
End time.Time // End is the time this check ended
ExitCode int // ExitCode meanings: 0=healthy, 1=unhealthy, 2=reserved (considered unhealthy), else=error running probe
Output string // Output from last check
}
// Health states
const (
NoHealthcheck = "none" // Indicates there is no healthcheck
Starting = "starting" // Starting indicates that the container is not yet ready
Healthy = "healthy" // Healthy indicates that the container is running correctly
Unhealthy = "unhealthy" // Unhealthy indicates that the container has a problem
)
// Health stores information about the container's healthcheck results
type Health struct {
Status string // Status is one of Starting, Healthy or Unhealthy
FailingStreak int // FailingStreak is the number of consecutive failures
Log []*HealthcheckResult // Log contains the last few results (oldest first)
}
// ContainerState stores container's running state
// it's part of ContainerJSONBase and will return by "inspect" command
type ContainerState struct {
Status string // String representation of the container state. Can be one of "created", "running", "paused", "restarting", "removing", "exited", or "dead"
Running bool
Paused bool
Restarting bool
OOMKilled bool
Dead bool
Pid int
ExitCode int
Error string
StartedAt string
FinishedAt string
Health *Health `json:",omitempty"`
}
// ContainerNode stores information about the node that a container
// is running on. It's only used by the Docker Swarm standalone API
type ContainerNode struct {
ID string
IPAddress string `json:"IP"`
Addr string
Name string
Cpus int
Memory int64
Labels map[string]string
}
// ContainerJSONBase contains response of Engine API:
// GET "/containers/{name:.*}/json"
type ContainerJSONBase struct {
ID string `json:"Id"`
Created string
Path string
Args []string
State *ContainerState
Image string
ResolvConfPath string
HostnamePath string
HostsPath string
LogPath string
Node *ContainerNode `json:",omitempty"` // Node is only propagated by Docker Swarm standalone API
Name string
RestartCount int
Driver string
Platform string
MountLabel string
ProcessLabel string
AppArmorProfile string
ExecIDs []string
HostConfig *container.HostConfig
GraphDriver GraphDriverData
SizeRw *int64 `json:",omitempty"`
SizeRootFs *int64 `json:",omitempty"`
}
// ContainerJSON is newly used struct along with MountPoint
type ContainerJSON struct {
*ContainerJSONBase
Mounts []MountPoint
Config *container.Config
NetworkSettings *NetworkSettings
}
// NetworkSettings exposes the network settings in the api
type NetworkSettings struct {
NetworkSettingsBase
DefaultNetworkSettings
Networks map[string]*network.EndpointSettings
}
// SummaryNetworkSettings provides a summary of container's networks
// in /containers/json
type SummaryNetworkSettings struct {
Networks map[string]*network.EndpointSettings
}
// NetworkSettingsBase holds basic information about networks
type NetworkSettingsBase struct {
Bridge string // Bridge is the Bridge name the network uses(e.g. `docker0`)
SandboxID string // SandboxID uniquely represents a container's network stack
HairpinMode bool // HairpinMode specifies if hairpin NAT should be enabled on the virtual interface
LinkLocalIPv6Address string // LinkLocalIPv6Address is an IPv6 unicast address using the link-local prefix
LinkLocalIPv6PrefixLen int // LinkLocalIPv6PrefixLen is the prefix length of an IPv6 unicast address
Ports nat.PortMap // Ports is a collection of PortBinding indexed by Port
SandboxKey string // SandboxKey identifies the sandbox
SecondaryIPAddresses []network.Address
SecondaryIPv6Addresses []network.Address
}
// DefaultNetworkSettings holds network information
// during the 2 release deprecation period.
// It will be removed in Docker 1.11.
type DefaultNetworkSettings struct {
EndpointID string // EndpointID uniquely represents a service endpoint in a Sandbox
Gateway string // Gateway holds the gateway address for the network
GlobalIPv6Address string // GlobalIPv6Address holds network's global IPv6 address
GlobalIPv6PrefixLen int // GlobalIPv6PrefixLen represents mask length of network's global IPv6 address
IPAddress string // IPAddress holds the IPv4 address for the network
IPPrefixLen int // IPPrefixLen represents mask length of network's IPv4 address
IPv6Gateway string // IPv6Gateway holds gateway address specific for IPv6
MacAddress string // MacAddress holds the MAC address for the network
}
// MountPoint represents a mount point configuration inside the container.
// This is used for reporting the mountpoints in use by a container.
type MountPoint struct {
Type mount.Type `json:",omitempty"`
Name string `json:",omitempty"`
Source string
Destination string
Driver string `json:",omitempty"`
Mode string
RW bool
Propagation mount.Propagation
}
// NetworkResource is the body of the "get network" http response message
type NetworkResource struct {
Name string // Name is the requested name of the network
ID string `json:"Id"` // ID uniquely identifies a network on a single machine
Created time.Time // Created is the time the network created
Scope string // Scope describes the level at which the network exists (e.g. `swarm` for cluster-wide or `local` for machine level)
Driver string // Driver is the Driver name used to create the network (e.g. `bridge`, `overlay`)
EnableIPv6 bool // EnableIPv6 represents whether to enable IPv6
IPAM network.IPAM // IPAM is the network's IP Address Management
Internal bool // Internal represents if the network is used internal only
Attachable bool // Attachable represents if the global scope is manually attachable by regular containers from workers in swarm mode.
Ingress bool // Ingress indicates the network is providing the routing-mesh for the swarm cluster.
ConfigFrom network.ConfigReference // ConfigFrom specifies the source which will provide the configuration for this network.
ConfigOnly bool // ConfigOnly networks are place-holder networks for network configurations to be used by other networks. ConfigOnly networks cannot be used directly to run containers or services.
Containers map[string]EndpointResource // Containers contains endpoints belonging to the network
Options map[string]string // Options holds the network specific options to use for when creating the network
Labels map[string]string // Labels holds metadata specific to the network being created
Peers []network.PeerInfo `json:",omitempty"` // List of peer nodes for an overlay network
Services map[string]network.ServiceInfo `json:",omitempty"`
}
// EndpointResource contains network resources allocated and used for a container in a network
type EndpointResource struct {
Name string
EndpointID string
MacAddress string
IPv4Address string
IPv6Address string
}
// NetworkCreate is the expected body of the "create network" http request message
type NetworkCreate struct {
// Check for networks with duplicate names.
// Network is primarily keyed based on a random ID and not on the name.
// Network name is strictly a user-friendly alias to the network
// which is uniquely identified using ID.
// And there is no guaranteed way to check for duplicates.
// Option CheckDuplicate is there to provide a best effort checking of any networks
// which has the same name but it is not guaranteed to catch all name collisions.
CheckDuplicate bool
Driver string
Scope string
EnableIPv6 bool
IPAM *network.IPAM
Internal bool
Attachable bool
Ingress bool
ConfigOnly bool
ConfigFrom *network.ConfigReference
Options map[string]string
Labels map[string]string
}
// NetworkCreateRequest is the request message sent to the server for network create call.
type NetworkCreateRequest struct {
NetworkCreate
Name string
}
// NetworkCreateResponse is the response message sent by the server for network create call
type NetworkCreateResponse struct {
ID string `json:"Id"`
Warning string
}
// NetworkConnect represents the data to be used to connect a container to the network
type NetworkConnect struct {
Container string
EndpointConfig *network.EndpointSettings `json:",omitempty"`
}
// NetworkDisconnect represents the data to be used to disconnect a container from the network
type NetworkDisconnect struct {
Container string
Force bool
}
// NetworkInspectOptions holds parameters to inspect network
type NetworkInspectOptions struct {
Scope string
Verbose bool
}
// Checkpoint represents the details of a checkpoint
type Checkpoint struct {
Name string // Name is the name of the checkpoint
}
// Runtime describes an OCI runtime
type Runtime struct {
Path string `json:"path"`
Args []string `json:"runtimeArgs,omitempty"`
// This is exposed here only for internal use
// It is not currently supported to specify custom shim configs
Shim *ShimConfig `json:"-"`
}
// ShimConfig is used by runtime to configure containerd shims
type ShimConfig struct {
Binary string
Opts interface{}
}
// DiskUsage contains response of Engine API:
// GET "/system/df"
type DiskUsage struct {
LayersSize int64
Images []*ImageSummary
Containers []*Container
Volumes []*Volume
BuildCache []*BuildCache
BuilderSize int64 // deprecated
}
// ContainersPruneReport contains the response for Engine API:
// POST "/containers/prune"
type ContainersPruneReport struct {
ContainersDeleted []string
SpaceReclaimed uint64
}
// VolumesPruneReport contains the response for Engine API:
// POST "/volumes/prune"
type VolumesPruneReport struct {
VolumesDeleted []string
SpaceReclaimed uint64
}
// ImagesPruneReport contains the response for Engine API:
// POST "/images/prune"
type ImagesPruneReport struct {
ImagesDeleted []ImageDeleteResponseItem
SpaceReclaimed uint64
}
// BuildCachePruneReport contains the response for Engine API:
// POST "/build/prune"
type BuildCachePruneReport struct {
CachesDeleted []string
SpaceReclaimed uint64
}
// NetworksPruneReport contains the response for Engine API:
// POST "/networks/prune"
type NetworksPruneReport struct {
NetworksDeleted []string
}
// SecretCreateResponse contains the information returned to a client
// on the creation of a new secret.
type SecretCreateResponse struct {
// ID is the id of the created secret.
ID string
}
// SecretListOptions holds parameters to list secrets
type SecretListOptions struct {
Filters filters.Args
}
// ConfigCreateResponse contains the information returned to a client
// on the creation of a new config.
type ConfigCreateResponse struct {
// ID is the id of the created config.
ID string
}
// ConfigListOptions holds parameters to list configs
type ConfigListOptions struct {
Filters filters.Args
}
// PushResult contains the tag, manifest digest, and manifest size from the
// push. It's used to signal this information to the trust code in the client
// so it can sign the manifest if necessary.
type PushResult struct {
Tag string
Digest string
Size int
}
// BuildResult contains the image id of a successful build
type BuildResult struct {
ID string
}
// BuildCache contains information about a build cache record
type BuildCache struct {
ID string
Parent string
Type string
Description string
InUse bool
Shared bool
Size int64
CreatedAt time.Time
LastUsedAt *time.Time
UsageCount int
}
// BuildCachePruneOptions hold parameters to prune the build cache
type BuildCachePruneOptions struct {
All bool
KeepStorage int64
Filters filters.Args
}