620 lines
17 KiB
Go
620 lines
17 KiB
Go
package drivers
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import (
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"context"
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"crypto/md5"
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"fmt"
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"io"
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"path/filepath"
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"sort"
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"strconv"
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"time"
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"github.com/hashicorp/nomad/client/allocdir"
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cstructs "github.com/hashicorp/nomad/client/structs"
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"github.com/hashicorp/nomad/helper"
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"github.com/hashicorp/nomad/nomad/structs"
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"github.com/hashicorp/nomad/plugins/base"
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"github.com/hashicorp/nomad/plugins/drivers/proto"
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"github.com/hashicorp/nomad/plugins/shared/hclspec"
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pstructs "github.com/hashicorp/nomad/plugins/shared/structs"
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"github.com/zclconf/go-cty/cty"
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"github.com/zclconf/go-cty/cty/msgpack"
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)
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const (
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// DriverHealthy is the default health description that should be used
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// if the driver is nominal
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DriverHealthy = "Healthy"
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// Pre09TaskHandleVersion is the version used to identify that the task
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// handle is from a driver that existed before driver plugins (v0.9). The
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// driver should take appropriate action to handle the old driver state.
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Pre09TaskHandleVersion = 0
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// DetachSignal is a special signal sent to remote task drivers when a
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// task should be detached instead of killed. This allows a remote task
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// to be left running and transferred to a replacement allocation in
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// cases like down or drained nodes causing the original allocation to
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// be terminal.
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DetachSignal = "DETACH"
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)
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// DriverPlugin is the interface with drivers will implement. It is also
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// implemented by a plugin client which proxies the calls to go-plugin. See
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// the proto/driver.proto file for detailed information about each RPC and
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// message structure.
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type DriverPlugin interface {
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base.BasePlugin
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TaskConfigSchema() (*hclspec.Spec, error)
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Capabilities() (*Capabilities, error)
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Fingerprint(context.Context) (<-chan *Fingerprint, error)
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RecoverTask(*TaskHandle) error
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StartTask(*TaskConfig) (*TaskHandle, *DriverNetwork, error)
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WaitTask(ctx context.Context, taskID string) (<-chan *ExitResult, error)
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StopTask(taskID string, timeout time.Duration, signal string) error
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DestroyTask(taskID string, force bool) error
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InspectTask(taskID string) (*TaskStatus, error)
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TaskStats(ctx context.Context, taskID string, interval time.Duration) (<-chan *cstructs.TaskResourceUsage, error)
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TaskEvents(context.Context) (<-chan *TaskEvent, error)
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SignalTask(taskID string, signal string) error
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ExecTask(taskID string, cmd []string, timeout time.Duration) (*ExecTaskResult, error)
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}
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// ExecTaskStreamingDriver marks that a driver supports streaming exec task. This represents a user friendly
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// interface to implement, as an alternative to the ExecTaskStreamingRawDriver, the low level interface.
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type ExecTaskStreamingDriver interface {
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ExecTaskStreaming(ctx context.Context, taskID string, execOptions *ExecOptions) (*ExitResult, error)
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}
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type ExecOptions struct {
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// Command is command to run
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Command []string
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// Tty indicates whether pseudo-terminal is to be allocated
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Tty bool
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// streams
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Stdin io.ReadCloser
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Stdout io.WriteCloser
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Stderr io.WriteCloser
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// terminal size channel
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ResizeCh <-chan TerminalSize
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}
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// DriverNetworkManager is the interface with exposes function for creating a
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// network namespace for which tasks can join. This only needs to be implemented
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// if the driver MUST create the network namespace
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type DriverNetworkManager interface {
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CreateNetwork(allocID string, request *NetworkCreateRequest) (*NetworkIsolationSpec, bool, error)
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DestroyNetwork(allocID string, spec *NetworkIsolationSpec) error
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}
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// DriverSignalTaskNotSupported can be embedded by drivers which don't support
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// the SignalTask RPC. This satisfies the SignalTask func requirement for the
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// DriverPlugin interface.
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type DriverSignalTaskNotSupported struct{}
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func (DriverSignalTaskNotSupported) SignalTask(taskID, signal string) error {
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return fmt.Errorf("SignalTask is not supported by this driver")
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}
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// DriverExecTaskNotSupported can be embedded by drivers which don't support
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// the ExecTask RPC. This satisfies the ExecTask func requirement of the
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// DriverPlugin interface.
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type DriverExecTaskNotSupported struct{}
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func (_ DriverExecTaskNotSupported) ExecTask(taskID string, cmd []string, timeout time.Duration) (*ExecTaskResult, error) {
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return nil, fmt.Errorf("ExecTask is not supported by this driver")
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}
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type HealthState string
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var (
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HealthStateUndetected = HealthState("undetected")
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HealthStateUnhealthy = HealthState("unhealthy")
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HealthStateHealthy = HealthState("healthy")
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)
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type Fingerprint struct {
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Attributes map[string]*pstructs.Attribute
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Health HealthState
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HealthDescription string
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// Err is set by the plugin if an error occurred during fingerprinting
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Err error
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}
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// FSIsolation is an enumeration to describe what kind of filesystem isolation
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// a driver supports.
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type FSIsolation string
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var (
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// FSIsolationNone means no isolation. The host filesystem is used.
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FSIsolationNone = FSIsolation("none")
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// FSIsolationChroot means the driver will use a chroot on the host
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// filesystem.
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FSIsolationChroot = FSIsolation("chroot")
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// FSIsolationImage means the driver uses an image.
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FSIsolationImage = FSIsolation("image")
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)
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type Capabilities struct {
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// SendSignals marks the driver as being able to send signals
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SendSignals bool
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// Exec marks the driver as being able to execute arbitrary commands
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// such as health checks. Used by the ScriptExecutor interface.
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Exec bool
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//FSIsolation indicates what kind of filesystem isolation the driver supports.
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FSIsolation FSIsolation
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//NetIsolationModes lists the set of isolation modes supported by the driver
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NetIsolationModes []NetIsolationMode
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// MustInitiateNetwork tells Nomad that the driver must create the network
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// namespace and that the CreateNetwork and DestroyNetwork RPCs are implemented.
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MustInitiateNetwork bool
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// MountConfigs tells Nomad which mounting config options the driver supports.
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MountConfigs MountConfigSupport
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// RemoteTasks indicates this driver runs tasks on remote systems
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// instead of locally. The Nomad client can use this information to
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// adjust behavior such as propogating task handles between allocations
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// to avoid downtime when a client is lost.
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RemoteTasks bool
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}
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func (c *Capabilities) HasNetIsolationMode(m NetIsolationMode) bool {
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for _, mode := range c.NetIsolationModes {
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if mode == m {
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return true
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}
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}
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return false
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}
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type NetIsolationMode string
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var (
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// NetIsolationModeHost disables network isolation and uses the host network
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NetIsolationModeHost = NetIsolationMode("host")
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// NetIsolationModeGroup uses the group network namespace for isolation
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NetIsolationModeGroup = NetIsolationMode("group")
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// NetIsolationModeTask isolates the network to just the task
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NetIsolationModeTask = NetIsolationMode("task")
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// NetIsolationModeNone indicates that there is no network to isolate and is
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// intended to be used for tasks that the client manages remotely
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NetIsolationModeNone = NetIsolationMode("none")
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)
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type NetworkIsolationSpec struct {
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Mode NetIsolationMode
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Path string
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Labels map[string]string
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HostsConfig *HostsConfig
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}
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type HostsConfig struct {
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Hostname string
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Address string
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}
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// NetworkCreateRequest contains all the relevant information when creating a
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// network via DriverNetworkManager.CreateNetwork.
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type NetworkCreateRequest struct {
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// Hostname is the hostname the user has specified that the network should
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// be configured with.
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Hostname string
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}
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// MountConfigSupport is an enum that defaults to "all" for backwards
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// compatibility with community drivers.
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type MountConfigSupport int32
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const (
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MountConfigSupportAll MountConfigSupport = iota
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MountConfigSupportNone
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)
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type TerminalSize struct {
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Height int
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Width int
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}
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type DNSConfig struct {
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Servers []string
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Searches []string
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Options []string
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}
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func (c *DNSConfig) Copy() *DNSConfig {
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if c == nil {
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return nil
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}
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cfg := new(DNSConfig)
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if len(c.Servers) > 0 {
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cfg.Servers = make([]string, len(c.Servers))
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copy(cfg.Servers, c.Servers)
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}
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if len(c.Searches) > 0 {
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cfg.Searches = make([]string, len(c.Searches))
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copy(cfg.Searches, c.Searches)
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}
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if len(c.Options) > 0 {
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cfg.Options = make([]string, len(c.Options))
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copy(cfg.Options, c.Options)
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}
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return cfg
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}
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type TaskConfig struct {
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ID string
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JobName string
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JobID string
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TaskGroupName string
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Name string // task.Name
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Namespace string
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NodeName string
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NodeID string
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Env map[string]string
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DeviceEnv map[string]string
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Resources *Resources
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Devices []*DeviceConfig
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Mounts []*MountConfig
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User string
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AllocDir string
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rawDriverConfig []byte
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StdoutPath string
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StderrPath string
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AllocID string
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NetworkIsolation *NetworkIsolationSpec
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DNS *DNSConfig
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}
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func (tc *TaskConfig) Copy() *TaskConfig {
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if tc == nil {
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return nil
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}
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c := new(TaskConfig)
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*c = *tc
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c.Env = helper.CopyMapStringString(c.Env)
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c.DeviceEnv = helper.CopyMapStringString(c.DeviceEnv)
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c.Resources = tc.Resources.Copy()
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c.DNS = tc.DNS.Copy()
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if c.Devices != nil {
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dc := make([]*DeviceConfig, len(c.Devices))
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for i, c := range c.Devices {
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dc[i] = c.Copy()
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}
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c.Devices = dc
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}
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if c.Mounts != nil {
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mc := make([]*MountConfig, len(c.Mounts))
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for i, m := range c.Mounts {
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mc[i] = m.Copy()
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}
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c.Mounts = mc
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}
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return c
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}
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func (tc *TaskConfig) EnvList() []string {
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l := make([]string, 0, len(tc.Env))
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for k, v := range tc.Env {
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l = append(l, k+"="+v)
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}
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sort.Strings(l)
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return l
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}
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func (tc *TaskConfig) TaskDir() *allocdir.TaskDir {
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taskDir := filepath.Join(tc.AllocDir, tc.Name)
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return &allocdir.TaskDir{
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Dir: taskDir,
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SharedAllocDir: filepath.Join(tc.AllocDir, allocdir.SharedAllocName),
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LogDir: filepath.Join(tc.AllocDir, allocdir.SharedAllocName, allocdir.LogDirName),
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SharedTaskDir: filepath.Join(taskDir, allocdir.SharedAllocName),
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LocalDir: filepath.Join(taskDir, allocdir.TaskLocal),
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SecretsDir: filepath.Join(taskDir, allocdir.TaskSecrets),
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}
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}
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func (tc *TaskConfig) DecodeDriverConfig(t interface{}) error {
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return base.MsgPackDecode(tc.rawDriverConfig, t)
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}
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func (tc *TaskConfig) EncodeDriverConfig(val cty.Value) error {
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data, err := msgpack.Marshal(val, val.Type())
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if err != nil {
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return err
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}
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tc.rawDriverConfig = data
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return nil
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}
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func (tc *TaskConfig) EncodeConcreteDriverConfig(t interface{}) error {
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data := []byte{}
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err := base.MsgPackEncode(&data, t)
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if err != nil {
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return err
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}
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tc.rawDriverConfig = data
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return nil
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}
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type MemoryResources = structs.AllocatedMemoryResources
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type Resources struct {
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NomadResources *structs.AllocatedTaskResources
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LinuxResources *LinuxResources
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Ports *structs.AllocatedPorts
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}
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func (r *Resources) Copy() *Resources {
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if r == nil {
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return nil
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}
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res := new(Resources)
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if r.NomadResources != nil {
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res.NomadResources = r.NomadResources.Copy()
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}
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if r.LinuxResources != nil {
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res.LinuxResources = r.LinuxResources.Copy()
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}
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if r.Ports != nil {
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ports := structs.AllocatedPorts(append(make([]structs.AllocatedPortMapping, 0, len(*r.Ports)), *r.Ports...))
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res.Ports = &ports
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}
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return res
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}
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type LinuxResources struct {
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CPUPeriod int64
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CPUQuota int64
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CPUShares int64
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MemoryLimitBytes int64
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OOMScoreAdj int64
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CpusetCpus string
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CpusetCgroupPath string
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// PrecentTicks is used to calculate the CPUQuota, currently the docker
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// driver exposes cpu period and quota through the driver configuration
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// and thus the calculation for CPUQuota cannot be done on the client.
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// This is a capatability and should only be used by docker until the docker
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// specific options are deprecated in favor of exposes CPUPeriod and
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// CPUQuota at the task resource stanza.
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PercentTicks float64
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}
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func (r *LinuxResources) Copy() *LinuxResources {
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res := new(LinuxResources)
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*res = *r
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return res
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}
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type DeviceConfig struct {
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TaskPath string
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HostPath string
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Permissions string
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}
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func (d *DeviceConfig) Copy() *DeviceConfig {
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if d == nil {
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return nil
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}
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dc := new(DeviceConfig)
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*dc = *d
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return dc
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}
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type MountConfig struct {
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TaskPath string
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HostPath string
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Readonly bool
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PropagationMode string
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}
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func (m *MountConfig) IsEqual(o *MountConfig) bool {
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return m.TaskPath == o.TaskPath &&
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m.HostPath == o.HostPath &&
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m.Readonly == o.Readonly &&
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m.PropagationMode == o.PropagationMode
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}
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func (m *MountConfig) Copy() *MountConfig {
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if m == nil {
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return nil
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}
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mc := new(MountConfig)
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*mc = *m
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return mc
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}
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const (
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TaskStateUnknown TaskState = "unknown"
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TaskStateRunning TaskState = "running"
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TaskStateExited TaskState = "exited"
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)
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type TaskState string
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type ExitResult struct {
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ExitCode int
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Signal int
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OOMKilled bool
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Err error
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}
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func (r *ExitResult) Successful() bool {
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return r.ExitCode == 0 && r.Signal == 0 && r.Err == nil
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}
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func (r *ExitResult) Copy() *ExitResult {
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if r == nil {
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return nil
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}
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res := new(ExitResult)
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*res = *r
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return res
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}
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type TaskStatus struct {
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ID string
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Name string
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State TaskState
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StartedAt time.Time
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CompletedAt time.Time
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ExitResult *ExitResult
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DriverAttributes map[string]string
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NetworkOverride *DriverNetwork
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}
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type TaskEvent struct {
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TaskID string
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TaskName string
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AllocID string
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Timestamp time.Time
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Message string
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Annotations map[string]string
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// Err is only used if an error occurred while consuming the RPC stream
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Err error
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}
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type ExecTaskResult struct {
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Stdout []byte
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Stderr []byte
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ExitResult *ExitResult
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}
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|
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// DriverNetwork is the network created by driver's (eg Docker's bridge
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// network) during Prestart.
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type DriverNetwork struct {
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// PortMap can be set by drivers to replace ports in environment
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// variables with driver-specific mappings.
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PortMap map[string]int
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// IP is the IP address for the task created by the driver.
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IP string
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// AutoAdvertise indicates whether the driver thinks services that
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// choose to auto-advertise-addresses should use this IP instead of the
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// host's. eg If a Docker network plugin is used
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AutoAdvertise bool
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}
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// Advertise returns true if the driver suggests using the IP set. May be
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// called on a nil Network in which case it returns false.
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func (d *DriverNetwork) Advertise() bool {
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return d != nil && d.AutoAdvertise
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}
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// Copy a DriverNetwork struct. If it is nil, nil is returned.
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func (d *DriverNetwork) Copy() *DriverNetwork {
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if d == nil {
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return nil
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}
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pm := make(map[string]int, len(d.PortMap))
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for k, v := range d.PortMap {
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pm[k] = v
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}
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return &DriverNetwork{
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PortMap: pm,
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IP: d.IP,
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AutoAdvertise: d.AutoAdvertise,
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}
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}
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// Hash the contents of a DriverNetwork struct to detect changes. If it is nil,
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// an empty slice is returned.
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func (d *DriverNetwork) Hash() []byte {
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if d == nil {
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return []byte{}
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}
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h := md5.New()
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io.WriteString(h, d.IP)
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io.WriteString(h, strconv.FormatBool(d.AutoAdvertise))
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for k, v := range d.PortMap {
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io.WriteString(h, k)
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io.WriteString(h, strconv.Itoa(v))
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}
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return h.Sum(nil)
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}
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//// helper types for operating on raw exec operation
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// we alias proto instances as much as possible to avoid conversion overhead
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|
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// ExecTaskStreamingRawDriver represents a low-level interface for executing a streaming exec
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// call, and is intended to be used when driver instance is to delegate exec handling to another
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|
// backend, e.g. to a executor or a driver behind a grpc/rpc protocol
|
|
//
|
|
// Nomad client would prefer this interface method over `ExecTaskStreaming` if driver implements it.
|
|
type ExecTaskStreamingRawDriver interface {
|
|
ExecTaskStreamingRaw(
|
|
ctx context.Context,
|
|
taskID string,
|
|
command []string,
|
|
tty bool,
|
|
stream ExecTaskStream) error
|
|
}
|
|
|
|
// ExecTaskStream represents a stream of exec streaming messages,
|
|
// and is a handle to get stdin and tty size and send back
|
|
// stdout/stderr and exit operations.
|
|
//
|
|
// The methods are not concurrent safe; callers must ensure that methods are called
|
|
// from at most one goroutine.
|
|
type ExecTaskStream interface {
|
|
// Send relays response message back to API.
|
|
//
|
|
// The call is synchronous and no references to message is held: once
|
|
// method call completes, the message reference can be reused or freed.
|
|
Send(*ExecTaskStreamingResponseMsg) error
|
|
|
|
// Receive exec streaming messages from API. Returns `io.EOF` on completion of stream.
|
|
Recv() (*ExecTaskStreamingRequestMsg, error)
|
|
}
|
|
|
|
type ExecTaskStreamingRequestMsg = proto.ExecTaskStreamingRequest
|
|
type ExecTaskStreamingResponseMsg = proto.ExecTaskStreamingResponse
|
|
|
|
// InternalCapabilitiesDriver is an experimental interface enabling a driver
|
|
// to disable some nomad functionality (e.g. logs or metrics).
|
|
//
|
|
// Intended for internal drivers only while the interface is stabalized.
|
|
type InternalCapabilitiesDriver interface {
|
|
InternalCapabilities() InternalCapabilities
|
|
}
|
|
|
|
// InternalCapabilities flags disabled functionality.
|
|
// Zero value means all is supported.
|
|
type InternalCapabilities struct {
|
|
DisableLogCollection bool
|
|
DisableMetricsCollection bool
|
|
}
|