packer

package
v0.1.0 Latest Latest
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Published: Jun 28, 2013 License: MPL-2.0 Imports: 16 Imported by: 0

Documentation

Overview

The packer package contains the core components of Packer.

Index

Constants

View Source
const (
	UiColorRed     UiColor = 31
	UiColorGreen           = 32
	UiColorYellow          = 33
	UiColorBlue            = 34
	UiColorMagenta         = 35
	UiColorCyan            = 36
)
View Source
const DebugConfigKey = "packer_debug"

This is the key in configurations that is set to "true" when Packer debugging is enabled.

View Source
const HookProvision = "packer_provision"

This is the hook that should be fired for provisioners to run.

View Source
const Version = "0.1.0"

The version of packer.

View Source
const VersionPrerelease = ""

Any pre-release marker for the version. If this is "" (empty string), then it means that it is a final release. Otherwise, this is the pre-release marker.

Variables

This section is empty.

Functions

This section is empty.

Types

type Artifact

type Artifact interface {
	// Returns the ID of the builder that was used to create this artifact.
	// This is the internal ID of the builder and should be unique to every
	// builder. This can be used to identify what the contents of the
	// artifact actually are.
	BuilderId() string

	// Returns the set of files that comprise this artifact. If an
	// artifact is not made up of files, then this will be empty.
	Files() []string

	// The ID for the artifact, if it has one. This is not guaranteed to
	// be unique every run (like a GUID), but simply provide an identifier
	// for the artifact that may be meaningful in some way. For example,
	// for Amazon EC2, this value might be the AMI ID.
	Id() string

	// Returns human-readable output that describes the artifact created.
	// This is used for UI output. It can be multiple lines.
	String() string

	// Destroy deletes the artifact. Packer calls this for various reasons,
	// such as if a post-processor has processed this artifact and it is
	// no longer needed.
	Destroy() error
}

An Artifact is the result of a build, and is the metadata that documents what a builder actually created. The exact meaning of the contents is specific to each builder, but this interface is used to communicate back to the user the result of a build.

type Build

type Build interface {
	// Name is the name of the build. This is unique across a single template,
	// but not absolutely unique. This is meant more to describe to the user
	// what is being built rather than being a unique identifier.
	Name() string

	// Prepare configures the various components of this build and reports
	// any errors in doing so (such as syntax errors, validation errors, etc.)
	Prepare() error

	// Run runs the actual builder, returning an artifact implementation
	// of what is built. If anything goes wrong, an error is returned.
	Run(Ui, Cache) ([]Artifact, error)

	// Cancel will cancel a running build. This will block until the build
	// is actually completely cancelled.
	Cancel()

	// SetDebug will enable/disable debug mode. Debug mode is always
	// enabled by adding the additional key "packer_debug" to boolean
	// true in the configuration of the various components. This must
	// be called prior to Prepare.
	//
	// When SetDebug is set to true, parallelism between builds is
	// strictly prohibited.
	SetDebug(bool)
}

A Build represents a single job within Packer that is responsible for building some machine image artifact. Builds are meant to be parallelized.

type Builder

type Builder interface {
	// Prepare is responsible for configuring the builder and validating
	// that configuration. Any setup should be done in this method. Note that
	// NO side effects should take place in prepare, it is meant as a state
	// setup only. Calling Prepare is not necessarilly followed by a Run.
	//
	// The parameters to Prepare are a set of interface{} values of the
	// configuration. These are almost always `map[string]interface{}`
	// parsed from a template, but no guarantee is made.
	//
	// Each of the configuration values should merge into the final
	// configuration.
	Prepare(...interface{}) error

	// Run is where the actual build should take place. It takes a Build and a Ui.
	Run(ui Ui, hook Hook, cache Cache) (Artifact, error)

	// Cancel cancels a possibly running Builder. This should block until
	// the builder actually cancels and cleans up after itself.
	Cancel()
}

Implementers of Builder are responsible for actually building images on some platform given some configuration.

In addition to the documentation on Prepare above: Prepare is sometimes configured with a `map[string]interface{}` that has a key "packer_debug". This is a boolean value. If it is set to true, then the builder should enable a debug mode which allows builder developers and advanced users to introspect what is going on during a build. During debug builds, parallelism is strictly disabled, so it is safe to request input from stdin and so on.

type BuilderFunc

type BuilderFunc func(name string) (Builder, error)

The function type used to lookup Builder implementations.

type Cache

type Cache interface {
	// Lock takes a key and returns the path where the file can be written to.
	// Packer guarantees that no other process will write to this file while
	// the lock is held.
	//
	// The cache will block and wait for the lock.
	Lock(string) string

	// Unlock will unlock a certain cache key. Be very careful that this
	// is only called once per lock obtained.
	Unlock(string)

	// RLock returns the path to a key in the cache and locks it for reading.
	// The second return parameter is whether the key existed or not.
	// This will block if any locks are held for writing. No lock will be
	// held if the key doesn't exist.
	RLock(string) (string, bool)

	// RUnlock will unlock a key for reading.
	RUnlock(string)
}

Cache implements a caching interface where files can be stored for re-use between multiple runs.

type ColoredUi

type ColoredUi struct {
	Color      UiColor
	ErrorColor UiColor
	Ui         Ui
}

ColoredUi is a UI that is colored using terminal colors.

func (*ColoredUi) Ask

func (u *ColoredUi) Ask(query string) (string, error)

func (*ColoredUi) Error

func (u *ColoredUi) Error(message string)

func (*ColoredUi) Message

func (u *ColoredUi) Message(message string)

func (*ColoredUi) Say

func (u *ColoredUi) Say(message string)

type Command

type Command interface {
	// Help should return long-form help text that includes the command-line
	// usage, a brief few sentences explaining the function of the command,
	// and the complete list of flags the command accepts.
	Help() string

	// Run should run the actual command with the given environmet and
	// command-line arguments. It should return the exit status when it is
	// finished.
	Run(env Environment, args []string) int

	// Synopsis should return a one-line, short synopsis of the command.
	// This should be less than 50 characters ideally.
	Synopsis() string
}

A command is a runnable sub-command of the `packer` application. When `packer` is called with the proper subcommand, this will be called.

The mapping of command names to command interfaces is in the Environment struct.

type CommandFunc

type CommandFunc func(name string) (Command, error)

The function type used to lookup Command implementations.

type Communicator

type Communicator interface {
	// Start takes a RemoteCmd and starts it. The RemoteCmd must not be
	// modified after being used with Start, and it must not be used with
	// Start again. The Start method returns immediately once the command
	// is started. It does not wait for the command to complete. The
	// RemoteCmd.Exited field should be used for this.
	Start(*RemoteCmd) error

	// Upload uploads a file to the machine to the given path with the
	// contents coming from the given reader. This method will block until
	// it completes.
	Upload(string, io.Reader) error

	// Download downloads a file from the machine from the given remote path
	// with the contents writing to the given writer. This method will
	// block until it completes.
	Download(string, io.Writer) error
}

A Communicator is the interface used to communicate with the machine that exists that will eventually be packaged into an image. Communicators allow you to execute remote commands, upload files, etc.

Communicators must be safe for concurrency, meaning multiple calls to Start or any other method may be called at the same time.

type ComponentFinder

type ComponentFinder struct {
	Builder       BuilderFunc
	Command       CommandFunc
	Hook          HookFunc
	PostProcessor PostProcessorFunc
	Provisioner   ProvisionerFunc
}

ComponentFinder is a struct that contains the various function pointers necessary to look up components of Packer such as builders, commands, etc.

type DispatchHook

type DispatchHook struct {
	Mapping map[string][]Hook
}

A Hook implementation that dispatches based on an internal mapping.

func (*DispatchHook) Run

func (h *DispatchHook) Run(name string, ui Ui, comm Communicator, data interface{}) error

Runs the hook with the given name by dispatching it to the proper hooks if a mapping exists. If a mapping doesn't exist, then nothing happens.

type Environment

type Environment interface {
	Builder(string) (Builder, error)
	Cache() Cache
	Cli([]string) (int, error)
	Hook(string) (Hook, error)
	PostProcessor(string) (PostProcessor, error)
	Provisioner(string) (Provisioner, error)
	Ui() Ui
}

The environment interface provides access to the configuration and state of a single Packer run.

It allows for things such as executing CLI commands, getting the list of available builders, and more.

func NewEnvironment

func NewEnvironment(config *EnvironmentConfig) (resultEnv Environment, err error)

This creates a new environment

type EnvironmentConfig

type EnvironmentConfig struct {
	Cache      Cache
	Commands   []string
	Components ComponentFinder
	Ui         Ui
}

This struct configures new environments.

func DefaultEnvironmentConfig

func DefaultEnvironmentConfig() *EnvironmentConfig

DefaultEnvironmentConfig returns a default EnvironmentConfig that can be used to create a new enviroment with NewEnvironment with sane defaults.

type FileCache

type FileCache struct {
	CacheDir string
	// contains filtered or unexported fields
}

FileCache implements a Cache by caching the data directly to a cache directory.

func (*FileCache) Lock

func (f *FileCache) Lock(key string) string

func (*FileCache) RLock

func (f *FileCache) RLock(key string) (string, bool)

func (*FileCache) RUnlock

func (f *FileCache) RUnlock(key string)

func (*FileCache) Unlock

func (f *FileCache) Unlock(key string)

type Hook

type Hook interface {
	Run(string, Ui, Communicator, interface{}) error
}

A Hook is used to hook into an arbitrarily named location in a build, allowing custom behavior to run at certain points along a build.

Run is called when the hook is called, with the name of the hook and arbitrary data associated with it. To know what format the data is in, you must reference the documentation for the specific hook you're interested in. In addition to that, the Hook is given access to a UI so that it can output things to the user.

type HookFunc

type HookFunc func(name string) (Hook, error)

The function type used to lookup Hook implementations.

type MultiError

type MultiError struct {
	Errors []error
}

MultiError is an error type to track multiple errors. This is used to accumulate errors in cases such as configuration parsing, and returning them as a single error.

func (*MultiError) Error

func (e *MultiError) Error() string

type PostProcessor

type PostProcessor interface {
	// Configure is responsible for setting up configuration, storing
	// the state for later, and returning and errors, such as validation
	// errors.
	Configure(interface{}) error

	// PostProcess takes a previously created Artifact and produces another
	// Artifact. If an error occurs, it should return that error.
	PostProcess(Ui, Artifact) (Artifact, error)
}

A PostProcessor is responsible for taking an artifact of a build and doing some sort of post-processing to turn this into another artifact. An example of a post-processor would be something that takes the result of a build, compresses it, and returns a new artifact containing a single file of the prior artifact compressed.

type PostProcessorFunc

type PostProcessorFunc func(name string) (PostProcessor, error)

The function type used to lookup PostProcessor implementations.

type PrefixedUi

type PrefixedUi struct {
	SayPrefix     string
	MessagePrefix string
	Ui            Ui
}

PrefixedUi is a UI that wraps another UI implementation and adds a prefix to all the messages going out.

func (*PrefixedUi) Ask

func (u *PrefixedUi) Ask(query string) (string, error)

func (*PrefixedUi) Error

func (u *PrefixedUi) Error(message string)

func (*PrefixedUi) Message

func (u *PrefixedUi) Message(message string)

func (*PrefixedUi) Say

func (u *PrefixedUi) Say(message string)

type ProvisionHook

type ProvisionHook struct {
	// The provisioners to run as part of the hook. These should already
	// be prepared (by calling Prepare) at some earlier stage.
	Provisioners []Provisioner
}

A Hook implementation that runs the given provisioners.

func (*ProvisionHook) Run

func (h *ProvisionHook) Run(name string, ui Ui, comm Communicator, data interface{}) error

Runs the provisioners in order.

type Provisioner

type Provisioner interface {
	// Prepare is called with a set of configurations to setup the
	// internal state of the provisioner. The multiple configurations
	// should be merged in some sane way.
	Prepare(...interface{}) error

	// Provision is called to actually provision the machine. A UI is
	// given to communicate with the user, and a communicator is given that
	// is guaranteed to be connected to some machine so that provisioning
	// can be done.
	Provision(Ui, Communicator) error
}

A provisioner is responsible for installing and configuring software on a machine prior to building the actual image.

type ProvisionerFunc

type ProvisionerFunc func(name string) (Provisioner, error)

The function type used to lookup Provisioner implementations.

type ReaderWriterUi

type ReaderWriterUi struct {
	Reader io.Reader
	Writer io.Writer
	// contains filtered or unexported fields
}

The ReaderWriterUi is a UI that writes and reads from standard Go io.Reader and io.Writer.

func (*ReaderWriterUi) Ask

func (rw *ReaderWriterUi) Ask(query string) (string, error)

func (*ReaderWriterUi) Error

func (rw *ReaderWriterUi) Error(message string)

func (*ReaderWriterUi) Message

func (rw *ReaderWriterUi) Message(message string)

func (*ReaderWriterUi) Say

func (rw *ReaderWriterUi) Say(message string)

type RemoteCmd

type RemoteCmd struct {
	// Command is the command to run remotely. This is executed as if
	// it were a shell command, so you are expected to do any shell escaping
	// necessary.
	Command string

	// Stdin specifies the process's standard input. If Stdin is
	// nil, the process reads from an empty bytes.Buffer.
	Stdin io.Reader

	// Stdout and Stderr represent the process's standard output and
	// error.
	//
	// If either is nil, it will be set to ioutil.Discard.
	Stdout io.Writer
	Stderr io.Writer

	// This will be set to true when the remote command has exited. It
	// shouldn't be set manually by the user, but there is no harm in
	// doing so.
	Exited bool

	// Once Exited is true, this will contain the exit code of the process.
	ExitStatus int
}

RemoteCmd represents a remote command being prepared or run.

func (*RemoteCmd) Wait

func (r *RemoteCmd) Wait()

Wait waits for the remote command to complete.

type Template

type Template struct {
	Builders       map[string]rawBuilderConfig
	Hooks          map[string][]string
	PostProcessors [][]rawPostProcessorConfig
	Provisioners   []rawProvisionerConfig
}

The Template struct represents a parsed template, parsed into the most completed form it can be without additional processing by the caller.

func ParseTemplate

func ParseTemplate(data []byte) (t *Template, err error)

ParseTemplate takes a byte slice and parses a Template from it, returning the template and possibly errors while loading the template. The error could potentially be a MultiError, representing multiple errors. Knowing and checking for this can be useful, if you wish to format it in a certain way.

func (*Template) Build

func (t *Template) Build(name string, components *ComponentFinder) (b Build, err error)

Build returns a Build for the given name.

If the build does not exist as part of this template, an error is returned.

func (*Template) BuildNames

func (t *Template) BuildNames() []string

BuildNames returns a slice of the available names of builds that this template represents.

type Ui

type Ui interface {
	Ask(string) (string, error)
	Say(string)
	Message(string)
	Error(string)
}

The Ui interface handles all communication for Packer with the outside world. This sort of control allows us to strictly control how output is formatted and various levels of output.

type UiColor

type UiColor uint

Directories

Path Synopsis
The plugin package provides the functionality to both expose a Packer plugin binary and to connect to an existing Packer plugin binary.
The plugin package provides the functionality to both expose a Packer plugin binary and to connect to an existing Packer plugin binary.

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