open-nomad/client/driver/rkt.go

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package driver
import (
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"bytes"
"context"
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"encoding/json"
"fmt"
"io/ioutil"
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"log"
"net"
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"os"
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"os/exec"
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"path/filepath"
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"regexp"
"runtime"
"strconv"
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"strings"
"syscall"
"time"
"github.com/hashicorp/go-plugin"
"github.com/hashicorp/go-version"
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"github.com/hashicorp/nomad/client/allocdir"
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"github.com/hashicorp/nomad/client/config"
"github.com/hashicorp/nomad/client/driver/env"
"github.com/hashicorp/nomad/client/driver/executor"
dstructs "github.com/hashicorp/nomad/client/driver/structs"
cstructs "github.com/hashicorp/nomad/client/structs"
"github.com/hashicorp/nomad/helper"
"github.com/hashicorp/nomad/helper/fields"
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"github.com/hashicorp/nomad/nomad/structs"
"github.com/mitchellh/mapstructure"
)
var (
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reRktVersion = regexp.MustCompile(`rkt [vV]ersion[:]? (\d[.\d]+)`)
reAppcVersion = regexp.MustCompile(`appc [vV]ersion[:]? (\d[.\d]+)`)
)
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const (
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// minRktVersion is the earliest supported version of rkt. rkt added support
// for CPU and memory isolators in 0.14.0. We cannot support an earlier
// version to maintain an uniform interface across all drivers
minRktVersion = "1.0.0"
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// The key populated in the Node Attributes to indicate the presence of the
// Rkt driver
rktDriverAttr = "driver.rkt"
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// rktVolumesConfigOption is the key for enabling the use of custom
// bind volumes.
rktVolumesConfigOption = "rkt.volumes.enabled"
rktVolumesConfigDefault = true
// rktCmd is the command rkt is installed as.
rktCmd = "rkt"
// rktUuidDeadline is how long to wait for the uuid file to be written
rktUuidDeadline = 5 * time.Second
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)
// RktDriver is a driver for running images via Rkt
// We attempt to chose sane defaults for now, with more configuration available
// planned in the future
type RktDriver struct {
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DriverContext
// A tri-state boolean to know if the fingerprinting has happened and
// whether it has been successful
fingerprintSuccess *bool
}
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type RktDriverConfig struct {
ImageName string `mapstructure:"image"`
Command string `mapstructure:"command"`
Args []string `mapstructure:"args"`
TrustPrefix string `mapstructure:"trust_prefix"`
DNSServers []string `mapstructure:"dns_servers"` // DNS Server for containers
DNSSearchDomains []string `mapstructure:"dns_search_domains"` // DNS Search domains for containers
Net []string `mapstructure:"net"` // Networks for the containers
PortMapRaw []map[string]string `mapstructure:"port_map"` //
PortMap map[string]string `mapstructure:"-"` // A map of host port and the port name defined in the image manifest file
Volumes []string `mapstructure:"volumes"` // Host-Volumes to mount in, syntax: /path/to/host/directory:/destination/path/in/container
Debug bool `mapstructure:"debug"` // Enable debug option for rkt command
}
// rktHandle is returned from Start/Open as a handle to the PID
type rktHandle struct {
uuid string
env *env.TaskEnv
taskDir *allocdir.TaskDir
pluginClient *plugin.Client
executorPid int
executor executor.Executor
logger *log.Logger
killTimeout time.Duration
maxKillTimeout time.Duration
waitCh chan *dstructs.WaitResult
doneCh chan struct{}
}
// rktPID is a struct to map the pid running the process to the vm image on
// disk
type rktPID struct {
UUID string
PluginConfig *PluginReattachConfig
ExecutorPid int
KillTimeout time.Duration
MaxKillTimeout time.Duration
}
// NewRktDriver is used to create a new exec driver
func NewRktDriver(ctx *DriverContext) Driver {
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return &RktDriver{DriverContext: *ctx}
}
func (d *RktDriver) FSIsolation() cstructs.FSIsolation {
return cstructs.FSIsolationImage
}
// Validate is used to validate the driver configuration
func (d *RktDriver) Validate(config map[string]interface{}) error {
fd := &fields.FieldData{
Raw: config,
Schema: map[string]*fields.FieldSchema{
"image": &fields.FieldSchema{
Type: fields.TypeString,
Required: true,
},
"command": &fields.FieldSchema{
Type: fields.TypeString,
},
"args": &fields.FieldSchema{
Type: fields.TypeArray,
},
"trust_prefix": &fields.FieldSchema{
Type: fields.TypeString,
},
"dns_servers": &fields.FieldSchema{
Type: fields.TypeArray,
},
"dns_search_domains": &fields.FieldSchema{
Type: fields.TypeArray,
},
"net": &fields.FieldSchema{
Type: fields.TypeArray,
},
"port_map": &fields.FieldSchema{
Type: fields.TypeArray,
},
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"debug": &fields.FieldSchema{
Type: fields.TypeBool,
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},
"volumes": &fields.FieldSchema{
Type: fields.TypeArray,
},
},
}
if err := fd.Validate(); err != nil {
return err
}
return nil
}
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func (d *RktDriver) Abilities() DriverAbilities {
return DriverAbilities{
SendSignals: false,
Exec: true,
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}
}
func (d *RktDriver) Fingerprint(cfg *config.Config, node *structs.Node) (bool, error) {
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// Only enable if we are root when running on non-windows systems.
if runtime.GOOS != "windows" && syscall.Geteuid() != 0 {
if d.fingerprintSuccess == nil || *d.fingerprintSuccess {
d.logger.Printf("[DEBUG] driver.rkt: must run as root user, disabling")
}
delete(node.Attributes, rktDriverAttr)
d.fingerprintSuccess = helper.BoolToPtr(false)
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return false, nil
}
outBytes, err := exec.Command(rktCmd, "version").Output()
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if err != nil {
delete(node.Attributes, rktDriverAttr)
d.fingerprintSuccess = helper.BoolToPtr(false)
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return false, nil
}
out := strings.TrimSpace(string(outBytes))
rktMatches := reRktVersion.FindStringSubmatch(out)
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appcMatches := reAppcVersion.FindStringSubmatch(out)
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if len(rktMatches) != 2 || len(appcMatches) != 2 {
delete(node.Attributes, rktDriverAttr)
d.fingerprintSuccess = helper.BoolToPtr(false)
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return false, fmt.Errorf("Unable to parse Rkt version string: %#v", rktMatches)
}
node.Attributes[rktDriverAttr] = "1"
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node.Attributes["driver.rkt.version"] = rktMatches[1]
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node.Attributes["driver.rkt.appc.version"] = appcMatches[1]
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minVersion, _ := version.NewVersion(minRktVersion)
currentVersion, _ := version.NewVersion(node.Attributes["driver.rkt.version"])
if currentVersion.LessThan(minVersion) {
// Do not allow ancient rkt versions
d.logger.Printf("[WARN] driver.rkt: please upgrade rkt to a version >= %s", minVersion)
node.Attributes[rktDriverAttr] = "0"
}
// Advertise if this node supports rkt volumes
if d.config.ReadBoolDefault(rktVolumesConfigOption, rktVolumesConfigDefault) {
node.Attributes["driver."+rktVolumesConfigOption] = "1"
}
d.fingerprintSuccess = helper.BoolToPtr(true)
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return true, nil
}
func (d *RktDriver) Periodic() (bool, time.Duration) {
return true, 15 * time.Second
}
func (d *RktDriver) Prestart(ctx *ExecContext, task *structs.Task) (*PrestartResponse, error) {
return nil, nil
}
// Run an existing Rkt image.
func (d *RktDriver) Start(ctx *ExecContext, task *structs.Task) (DriverHandle, error) {
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var driverConfig RktDriverConfig
if err := mapstructure.WeakDecode(task.Config, &driverConfig); err != nil {
return nil, err
}
driverConfig.PortMap = mapMergeStrStr(driverConfig.PortMapRaw...)
// ACI image
img := driverConfig.ImageName
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// Build the command.
cmdArgs := make([]string, 0, 50)
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// Add debug option to rkt command.
debug := driverConfig.Debug
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// Add the given trust prefix
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trustPrefix := driverConfig.TrustPrefix
insecure := false
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if trustPrefix != "" {
var outBuf, errBuf bytes.Buffer
cmd := exec.Command(rktCmd, "trust", "--skip-fingerprint-review=true", fmt.Sprintf("--prefix=%s", trustPrefix), fmt.Sprintf("--debug=%t", debug))
cmd.Stdout = &outBuf
cmd.Stderr = &errBuf
if err := cmd.Run(); err != nil {
return nil, fmt.Errorf("Error running rkt trust: %s\n\nOutput: %s\n\nError: %s",
err, outBuf.String(), errBuf.String())
}
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d.logger.Printf("[DEBUG] driver.rkt: added trust prefix: %q", trustPrefix)
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} else {
// Disble signature verification if the trust command was not run.
insecure = true
}
cmdArgs = append(cmdArgs, "run")
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// Write the UUID out to a file in the state dir so we can read it back
// in and access the pod by UUID from other commands
uuidPath := filepath.Join(ctx.TaskDir.Dir, "rkt.uuid")
cmdArgs = append(cmdArgs, fmt.Sprintf("--uuid-file-save=%s", uuidPath))
// Convert underscores to dashes in task names for use in volume names #2358
sanitizedName := strings.Replace(task.Name, "_", "-", -1)
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// Mount /alloc
allocVolName := fmt.Sprintf("%s-%s-alloc", d.DriverContext.allocID, sanitizedName)
cmdArgs = append(cmdArgs, fmt.Sprintf("--volume=%s,kind=host,source=%s", allocVolName, ctx.TaskDir.SharedAllocDir))
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cmdArgs = append(cmdArgs, fmt.Sprintf("--mount=volume=%s,target=%s", allocVolName, allocdir.SharedAllocContainerPath))
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// Mount /local
localVolName := fmt.Sprintf("%s-%s-local", d.DriverContext.allocID, sanitizedName)
cmdArgs = append(cmdArgs, fmt.Sprintf("--volume=%s,kind=host,source=%s", localVolName, ctx.TaskDir.LocalDir))
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cmdArgs = append(cmdArgs, fmt.Sprintf("--mount=volume=%s,target=%s", localVolName, allocdir.TaskLocalContainerPath))
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// Mount /secrets
secretsVolName := fmt.Sprintf("%s-%s-secrets", d.DriverContext.allocID, sanitizedName)
cmdArgs = append(cmdArgs, fmt.Sprintf("--volume=%s,kind=host,source=%s", secretsVolName, ctx.TaskDir.SecretsDir))
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cmdArgs = append(cmdArgs, fmt.Sprintf("--mount=volume=%s,target=%s", secretsVolName, allocdir.TaskSecretsContainerPath))
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// Mount arbitrary volumes if enabled
if len(driverConfig.Volumes) > 0 {
if enabled := d.config.ReadBoolDefault(rktVolumesConfigOption, rktVolumesConfigDefault); !enabled {
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return nil, fmt.Errorf("%s is false; cannot use rkt volumes: %+q", rktVolumesConfigOption, driverConfig.Volumes)
}
for i, rawvol := range driverConfig.Volumes {
parts := strings.Split(rawvol, ":")
if len(parts) != 2 {
return nil, fmt.Errorf("invalid rkt volume: %q", rawvol)
}
volName := fmt.Sprintf("%s-%s-%d", d.DriverContext.allocID, sanitizedName, i)
cmdArgs = append(cmdArgs, fmt.Sprintf("--volume=%s,kind=host,source=%s", volName, parts[0]))
cmdArgs = append(cmdArgs, fmt.Sprintf("--mount=volume=%s,target=%s", volName, parts[1]))
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}
}
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cmdArgs = append(cmdArgs, img)
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if insecure {
cmdArgs = append(cmdArgs, "--insecure-options=all")
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}
cmdArgs = append(cmdArgs, fmt.Sprintf("--debug=%t", debug))
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// Inject environment variables
for k, v := range ctx.TaskEnv.Map() {
cmdArgs = append(cmdArgs, fmt.Sprintf("--set-env=%v=%q", k, v))
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}
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// Check if the user has overridden the exec command.
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if driverConfig.Command != "" {
cmdArgs = append(cmdArgs, fmt.Sprintf("--exec=%v", driverConfig.Command))
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}
// Add memory isolator
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cmdArgs = append(cmdArgs, fmt.Sprintf("--memory=%vM", int64(task.Resources.MemoryMB)))
// Add CPU isolator
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cmdArgs = append(cmdArgs, fmt.Sprintf("--cpu=%vm", int64(task.Resources.CPU)))
// Add DNS servers
if len(driverConfig.DNSServers) == 1 && (driverConfig.DNSServers[0] == "host" || driverConfig.DNSServers[0] == "none") {
// Special case single item lists with the special values "host" or "none"
cmdArgs = append(cmdArgs, fmt.Sprintf("--dns=%s", driverConfig.DNSServers[0]))
} else {
for _, ip := range driverConfig.DNSServers {
if err := net.ParseIP(ip); err == nil {
msg := fmt.Errorf("invalid ip address for container dns server %q", ip)
d.logger.Printf("[DEBUG] driver.rkt: %v", msg)
return nil, msg
} else {
cmdArgs = append(cmdArgs, fmt.Sprintf("--dns=%s", ip))
}
}
}
// set DNS search domains
for _, domain := range driverConfig.DNSSearchDomains {
cmdArgs = append(cmdArgs, fmt.Sprintf("--dns-search=%s", domain))
}
// set network
network := strings.Join(driverConfig.Net, ",")
if network != "" {
cmdArgs = append(cmdArgs, fmt.Sprintf("--net=%s", network))
}
// Setup port mapping and exposed ports
if len(task.Resources.Networks) == 0 {
d.logger.Println("[DEBUG] driver.rkt: No network interfaces are available")
if len(driverConfig.PortMap) > 0 {
return nil, fmt.Errorf("Trying to map ports but no network interface is available")
}
} else {
// TODO add support for more than one network
network := task.Resources.Networks[0]
for _, port := range network.ReservedPorts {
var containerPort string
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mapped, ok := driverConfig.PortMap[port.Label]
if !ok {
// If the user doesn't have a mapped port using port_map, driver stops running container.
return nil, fmt.Errorf("port_map is not set. When you defined port in the resources, you need to configure port_map.")
}
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containerPort = mapped
hostPortStr := strconv.Itoa(port.Value)
d.logger.Printf("[DEBUG] driver.rkt: exposed port %s", containerPort)
// Add port option to rkt run arguments. rkt allows multiple port args
cmdArgs = append(cmdArgs, fmt.Sprintf("--port=%s:%s", containerPort, hostPortStr))
}
for _, port := range network.DynamicPorts {
// By default we will map the allocated port 1:1 to the container
var containerPort string
if mapped, ok := driverConfig.PortMap[port.Label]; ok {
containerPort = mapped
} else {
// If the user doesn't have mapped a port using port_map, driver stops running container.
return nil, fmt.Errorf("port_map is not set. When you defined port in the resources, you need to configure port_map.")
}
hostPortStr := strconv.Itoa(port.Value)
d.logger.Printf("[DEBUG] driver.rkt: exposed port %s", containerPort)
// Add port option to rkt run arguments. rkt allows multiple port args
cmdArgs = append(cmdArgs, fmt.Sprintf("--port=%s:%s", containerPort, hostPortStr))
}
}
// Add user passed arguments.
if len(driverConfig.Args) != 0 {
parsed := ctx.TaskEnv.ParseAndReplace(driverConfig.Args)
// Need to start arguments with "--"
if len(parsed) > 0 {
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cmdArgs = append(cmdArgs, "--")
}
for _, arg := range parsed {
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cmdArgs = append(cmdArgs, fmt.Sprintf("%v", arg))
}
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}
pluginLogFile := filepath.Join(ctx.TaskDir.Dir, fmt.Sprintf("%s-executor.out", task.Name))
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executorConfig := &dstructs.ExecutorConfig{
LogFile: pluginLogFile,
LogLevel: d.config.LogLevel,
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}
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execIntf, pluginClient, err := createExecutor(d.config.LogOutput, d.config, executorConfig)
if err != nil {
return nil, err
}
// The task's environment is set via --set-env flags above, but the rkt
// command itself needs an evironment with PATH set to find iptables.
eb := env.NewEmptyBuilder()
filter := strings.Split(d.config.ReadDefault("env.blacklist", config.DefaultEnvBlacklist), ",")
eb.SetHostEnvvars(filter)
executorCtx := &executor.ExecutorContext{
TaskEnv: eb.Build(),
Driver: "rkt",
AllocID: d.DriverContext.allocID,
Task: task,
TaskDir: ctx.TaskDir.Dir,
LogDir: ctx.TaskDir.LogDir,
}
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if err := execIntf.SetContext(executorCtx); err != nil {
pluginClient.Kill()
return nil, fmt.Errorf("failed to set executor context: %v", err)
}
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absPath, err := GetAbsolutePath(rktCmd)
if err != nil {
return nil, err
}
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execCmd := &executor.ExecCommand{
Cmd: absPath,
Args: cmdArgs,
User: task.User,
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}
ps, err := execIntf.LaunchCmd(execCmd)
if err != nil {
pluginClient.Kill()
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return nil, err
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}
// Wait for UUID file to get written
uuid := ""
deadline := time.Now().Add(rktUuidDeadline)
var lastErr error
for time.Now().Before(deadline) {
if uuidBytes, err := ioutil.ReadFile(uuidPath); err != nil {
lastErr = err
} else {
uuid = string(uuidBytes)
break
}
time.Sleep(400 * time.Millisecond)
}
if uuid == "" {
d.logger.Printf("[WARN] driver.rkt: reading uuid from %q failed; unable to run script checks for task %q. Last error: %v",
uuidPath, d.taskName, lastErr)
}
d.logger.Printf("[DEBUG] driver.rkt: started ACI %q (UUID: %s) for task %q with: %v", img, uuid, d.taskName, cmdArgs)
maxKill := d.DriverContext.config.MaxKillTimeout
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h := &rktHandle{
uuid: uuid,
env: ctx.TaskEnv,
taskDir: ctx.TaskDir,
pluginClient: pluginClient,
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executor: execIntf,
executorPid: ps.Pid,
logger: d.logger,
killTimeout: GetKillTimeout(task.KillTimeout, maxKill),
maxKillTimeout: maxKill,
doneCh: make(chan struct{}),
waitCh: make(chan *dstructs.WaitResult, 1),
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}
go h.run()
return h, nil
}
func (d *RktDriver) Cleanup(*ExecContext, *CreatedResources) error { return nil }
func (d *RktDriver) Open(ctx *ExecContext, handleID string) (DriverHandle, error) {
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// Parse the handle
pidBytes := []byte(strings.TrimPrefix(handleID, "Rkt:"))
id := &rktPID{}
if err := json.Unmarshal(pidBytes, id); err != nil {
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return nil, fmt.Errorf("failed to parse Rkt handle '%s': %v", handleID, err)
}
pluginConfig := &plugin.ClientConfig{
Reattach: id.PluginConfig.PluginConfig(),
}
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exec, pluginClient, err := createExecutorWithConfig(pluginConfig, d.config.LogOutput)
if err != nil {
d.logger.Println("[ERROR] driver.rkt: error connecting to plugin so destroying plugin pid and user pid")
if e := destroyPlugin(id.PluginConfig.Pid, id.ExecutorPid); e != nil {
d.logger.Printf("[ERROR] driver.rkt: error destroying plugin and executor pid: %v", e)
}
return nil, fmt.Errorf("error connecting to plugin: %v", err)
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}
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ver, _ := exec.Version()
d.logger.Printf("[DEBUG] driver.rkt: version of executor: %v", ver.Version)
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// Return a driver handle
h := &rktHandle{
uuid: id.UUID,
env: ctx.TaskEnv,
taskDir: ctx.TaskDir,
pluginClient: pluginClient,
executorPid: id.ExecutorPid,
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executor: exec,
logger: d.logger,
killTimeout: id.KillTimeout,
maxKillTimeout: id.MaxKillTimeout,
doneCh: make(chan struct{}),
waitCh: make(chan *dstructs.WaitResult, 1),
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}
go h.run()
return h, nil
}
func (h *rktHandle) ID() string {
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// Return a handle to the PID
pid := &rktPID{
UUID: h.uuid,
PluginConfig: NewPluginReattachConfig(h.pluginClient.ReattachConfig()),
KillTimeout: h.killTimeout,
MaxKillTimeout: h.maxKillTimeout,
ExecutorPid: h.executorPid,
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}
data, err := json.Marshal(pid)
if err != nil {
h.logger.Printf("[ERR] driver.rkt: failed to marshal rkt PID to JSON: %s", err)
}
return fmt.Sprintf("Rkt:%s", string(data))
}
func (h *rktHandle) WaitCh() chan *dstructs.WaitResult {
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return h.waitCh
}
func (h *rktHandle) Update(task *structs.Task) error {
// Store the updated kill timeout.
h.killTimeout = GetKillTimeout(task.KillTimeout, h.maxKillTimeout)
h.executor.UpdateTask(task)
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// Update is not possible
return nil
}
func (h *rktHandle) Exec(ctx context.Context, cmd string, args []string) ([]byte, int, error) {
if h.uuid == "" {
return nil, 0, fmt.Errorf("unable to find rkt pod UUID")
}
// enter + UUID + cmd + args...
enterArgs := make([]string, 3+len(args))
enterArgs[0] = "enter"
enterArgs[1] = h.uuid
enterArgs[2] = cmd
copy(enterArgs[3:], args)
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return executor.ExecScript(ctx, h.taskDir.Dir, h.env, nil, rktCmd, enterArgs)
}
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func (h *rktHandle) Signal(s os.Signal) error {
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return fmt.Errorf("Rkt does not support signals")
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}
// Kill is used to terminate the task. We send an Interrupt
// and then provide a 5 second grace period before doing a Kill.
func (h *rktHandle) Kill() error {
h.executor.ShutDown()
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select {
case <-h.doneCh:
return nil
case <-time.After(h.killTimeout):
return h.executor.Exit()
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}
}
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func (h *rktHandle) Stats() (*cstructs.TaskResourceUsage, error) {
return nil, DriverStatsNotImplemented
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}
func (h *rktHandle) run() {
ps, werr := h.executor.Wait()
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close(h.doneCh)
if ps.ExitCode == 0 && werr != nil {
if e := killProcess(h.executorPid); e != nil {
h.logger.Printf("[ERROR] driver.rkt: error killing user process: %v", e)
}
}
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// Exit the executor
if err := h.executor.Exit(); err != nil {
h.logger.Printf("[ERR] driver.rkt: error killing executor: %v", err)
}
h.pluginClient.Kill()
// Send the results
h.waitCh <- dstructs.NewWaitResult(ps.ExitCode, 0, werr)
close(h.waitCh)
}