245 lines
8.0 KiB
Go
245 lines
8.0 KiB
Go
package packer
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import (
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"context"
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"fmt"
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"log"
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"sync"
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"time"
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"github.com/hashicorp/hcl/v2/hcldec"
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"github.com/hashicorp/packer/helper/common"
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)
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// A provisioner is responsible for installing and configuring software
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// on a machine prior to building the actual image.
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type Provisioner interface {
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HCL2Speccer
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// Prepare is called with a set of configurations to setup the
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// internal state of the provisioner. The multiple configurations
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// should be merged in some sane way.
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Prepare(...interface{}) error
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// Provision is called to actually provision the machine. A context is
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// given for cancellation, a UI is given to communicate with the user, and
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// a communicator is given that is guaranteed to be connected to some
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// machine so that provisioning can be done.
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Provision(context.Context, Ui, Communicator, map[string]interface{}) error
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}
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// A HookedProvisioner represents a provisioner and information describing it
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type HookedProvisioner struct {
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Provisioner Provisioner
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Config interface{}
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TypeName string
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}
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// A Hook implementation that runs the given provisioners.
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type ProvisionHook struct {
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// The provisioners to run as part of the hook. These should already
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// be prepared (by calling Prepare) at some earlier stage.
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Provisioners []*HookedProvisioner
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}
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// Provisioners interpolate most of their fields in the prepare stage; this
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// placeholder map helps keep fields that are only generated at build time from
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// accidentally being interpolated into empty strings at prepare time.
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// This helper function generates the most basic placeholder data which should
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// be accessible to the provisioners. It is used to initialize provisioners, to
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// force validation using the `generated` template function. In the future,
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// custom generated data could be passed into provisioners from builders to
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// enable specialized builder-specific (but still validated!!) access to builder
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// data.
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func BasicPlaceholderData() map[string]string {
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placeholderData := map[string]string{}
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msg := "Build_%s. " + common.PlaceholderMsg
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placeholderData["ID"] = fmt.Sprintf(msg, "ID")
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// The following correspond to communicator-agnostic functions that are
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// part of the SSH and WinRM communicator implementations. These functions
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// are not part of the communicator interface, but are stored on the
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// Communicator Config and return the appropriate values rather than
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// depending on the actual communicator config values. E.g "Password"
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// reprosents either WinRMPassword or SSHPassword, which makes this more
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// useful if a template contains multiple builds.
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placeholderData["Host"] = fmt.Sprintf(msg, "Host")
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placeholderData["Port"] = fmt.Sprintf(msg, "Port")
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placeholderData["User"] = fmt.Sprintf(msg, "User")
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placeholderData["Password"] = fmt.Sprintf(msg, "Password")
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placeholderData["ConnType"] = fmt.Sprintf(msg, "Type")
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placeholderData["PackerRunUUID"] = fmt.Sprintf(msg, "PackerRunUUID")
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placeholderData["PackerHTTPAddr"] = fmt.Sprintf(msg, "PackerHTTPAddr")
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placeholderData["SSHPublicKey"] = fmt.Sprintf(msg, "SSHPublicKey")
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placeholderData["SSHPrivateKey"] = fmt.Sprintf(msg, "SSHPrivateKey")
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// Backwards-compatability: WinRM Password can get through without forcing
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// the generated func validation.
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placeholderData["WinRMPassword"] = "{{.WinRMPassword}}"
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return placeholderData
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}
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func CastDataToMap(data interface{}) map[string]interface{} {
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if interMap, ok := data.(map[string]interface{}); ok {
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// null and file builder sometimes don't use a communicator and
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// therefore don't go through RPC
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return interMap
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}
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// Provisioners expect a map[string]interface{} in their data field, but
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// it gets converted into a map[interface]interface on the way over the
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// RPC. Check that data can be cast into such a form, and cast it.
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cast := make(map[string]interface{})
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interMap, ok := data.(map[interface{}]interface{})
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if !ok {
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log.Printf("Unable to read map[string]interface out of data."+
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"Using empty interface: %#v", data)
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} else {
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for key, val := range interMap {
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keyString, ok := key.(string)
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if ok {
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cast[keyString] = val
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} else {
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log.Printf("Error casting generated data key to a string.")
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}
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}
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}
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return cast
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}
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// Runs the provisioners in order.
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func (h *ProvisionHook) Run(ctx context.Context, name string, ui Ui, comm Communicator, data interface{}) error {
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// Shortcut
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if len(h.Provisioners) == 0 {
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return nil
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}
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if comm == nil {
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return fmt.Errorf(
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"No communicator found for provisioners! This is usually because the\n" +
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"`communicator` config was set to \"none\". If you have any provisioners\n" +
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"then a communicator is required. Please fix this to continue.")
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}
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for _, p := range h.Provisioners {
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ts := CheckpointReporter.AddSpan(p.TypeName, "provisioner", p.Config)
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cast := CastDataToMap(data)
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err := p.Provisioner.Provision(ctx, ui, comm, cast)
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ts.End(err)
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if err != nil {
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return err
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}
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}
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return nil
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}
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// PausedProvisioner is a Provisioner implementation that pauses before
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// the provisioner is actually run.
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type PausedProvisioner struct {
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PauseBefore time.Duration
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Provisioner Provisioner
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}
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func (p *PausedProvisioner) ConfigSpec() hcldec.ObjectSpec { return p.ConfigSpec() }
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func (p *PausedProvisioner) FlatConfig() interface{} { return p.FlatConfig() }
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func (p *PausedProvisioner) Prepare(raws ...interface{}) error {
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return p.Provisioner.Prepare(raws...)
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}
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func (p *PausedProvisioner) Provision(ctx context.Context, ui Ui, comm Communicator, generatedData map[string]interface{}) error {
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// Use a select to determine if we get cancelled during the wait
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ui.Say(fmt.Sprintf("Pausing %s before the next provisioner...", p.PauseBefore))
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select {
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case <-time.After(p.PauseBefore):
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case <-ctx.Done():
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return ctx.Err()
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}
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return p.Provisioner.Provision(ctx, ui, comm, generatedData)
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}
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// RetriedProvisioner is a Provisioner implementation that retries
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// the provisioner whenever there's an error.
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type RetriedProvisioner struct {
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MaxRetries int
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Provisioner Provisioner
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}
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func (r *RetriedProvisioner) ConfigSpec() hcldec.ObjectSpec { return r.ConfigSpec() }
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func (r *RetriedProvisioner) FlatConfig() interface{} { return r.FlatConfig() }
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func (r *RetriedProvisioner) Prepare(raws ...interface{}) error {
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return r.Provisioner.Prepare(raws...)
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}
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func (r *RetriedProvisioner) Provision(ctx context.Context, ui Ui, comm Communicator, generatedData map[string]interface{}) error {
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if ctx.Err() != nil { // context was cancelled
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return ctx.Err()
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}
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err := r.Provisioner.Provision(ctx, ui, comm, generatedData)
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if err == nil {
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return nil
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}
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leftTries := r.MaxRetries
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for ; leftTries > 0; leftTries-- {
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if ctx.Err() != nil { // context was cancelled
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return ctx.Err()
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}
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ui.Say(fmt.Sprintf("Provisioner failed with %q, retrying with %d trie(s) left", err, leftTries))
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err := r.Provisioner.Provision(ctx, ui, comm, generatedData)
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if err == nil {
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return nil
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}
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}
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ui.Say("retry limit reached.")
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return err
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}
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// DebuggedProvisioner is a Provisioner implementation that waits until a key
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// press before the provisioner is actually run.
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type DebuggedProvisioner struct {
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Provisioner Provisioner
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cancelCh chan struct{}
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doneCh chan struct{}
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lock sync.Mutex
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}
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func (p *DebuggedProvisioner) ConfigSpec() hcldec.ObjectSpec { return p.ConfigSpec() }
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func (p *DebuggedProvisioner) FlatConfig() interface{} { return p.FlatConfig() }
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func (p *DebuggedProvisioner) Prepare(raws ...interface{}) error {
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return p.Provisioner.Prepare(raws...)
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}
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func (p *DebuggedProvisioner) Provision(ctx context.Context, ui Ui, comm Communicator, generatedData map[string]interface{}) error {
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// Use a select to determine if we get cancelled during the wait
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message := "Pausing before the next provisioner . Press enter to continue."
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result := make(chan string, 1)
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go func() {
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line, err := ui.Ask(message)
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if err != nil {
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log.Printf("Error asking for input: %s", err)
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}
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result <- line
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}()
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select {
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case <-result:
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case <-ctx.Done():
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return ctx.Err()
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}
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return p.Provisioner.Provision(ctx, ui, comm, generatedData)
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}
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