packer-cn/helper/config/decode.go

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package config
import (
build using HCL2 (#8423) This follows #8232 which added the code to generate the code required to parse HCL files for each packer component. All old config files of packer will keep on working the same. Packer takes one argument. When a directory is passed, all files in the folder with a name ending with “.pkr.hcl” or “.pkr.json” will be parsed using the HCL2 format. When a file ending with “.pkr.hcl” or “.pkr.json” is passed it will be parsed using the HCL2 format. For every other case; the old packer style will be used. ## 1. the hcl2template pkg can create a packer.Build from a set of HCL (v2) files I had to make the packer.coreBuild (which is our one and only packer.Build ) a public struct with public fields ## 2. Components interfaces get a new ConfigSpec Method to read a file from an HCL file. This is a breaking change for packer plugins. a packer component can be a: builder/provisioner/post-processor each component interface now gets a `ConfigSpec() hcldec.ObjectSpec` which allows packer to tell what is the layout of the hcl2 config meant to configure that specific component. This ObjectSpec is sent through the wire (RPC) and a cty.Value is now sent through the already existing configuration entrypoints: Provisioner.Prepare(raws ...interface{}) error Builder.Prepare(raws ...interface{}) ([]string, error) PostProcessor.Configure(raws ...interface{}) error close #1768 Example hcl files: ```hcl // file amazon-ebs-kms-key/run.pkr.hcl build { sources = [ "source.amazon-ebs.first", ] provisioner "shell" { inline = [ "sleep 5" ] } post-processor "shell-local" { inline = [ "sleep 5" ] } } // amazon-ebs-kms-key/source.pkr.hcl source "amazon-ebs" "first" { ami_name = "hcl2-test" region = "us-east-1" instance_type = "t2.micro" kms_key_id = "c729958f-c6ba-44cd-ab39-35ab68ce0a6c" encrypt_boot = true source_ami_filter { filters { virtualization-type = "hvm" name = "amzn-ami-hvm-????.??.?.????????-x86_64-gp2" root-device-type = "ebs" } most_recent = true owners = ["amazon"] } launch_block_device_mappings { device_name = "/dev/xvda" volume_size = 20 volume_type = "gp2" delete_on_termination = "true" } launch_block_device_mappings { device_name = "/dev/xvdf" volume_size = 500 volume_type = "gp2" delete_on_termination = true encrypted = true } ami_regions = ["eu-central-1"] run_tags { Name = "packer-solr-something" stack-name = "DevOps Tools" } communicator = "ssh" ssh_pty = true ssh_username = "ec2-user" associate_public_ip_address = true } ```
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"encoding/json"
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"fmt"
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"reflect"
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"sort"
"strings"
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"github.com/hashicorp/go-multierror"
build using HCL2 (#8423) This follows #8232 which added the code to generate the code required to parse HCL files for each packer component. All old config files of packer will keep on working the same. Packer takes one argument. When a directory is passed, all files in the folder with a name ending with “.pkr.hcl” or “.pkr.json” will be parsed using the HCL2 format. When a file ending with “.pkr.hcl” or “.pkr.json” is passed it will be parsed using the HCL2 format. For every other case; the old packer style will be used. ## 1. the hcl2template pkg can create a packer.Build from a set of HCL (v2) files I had to make the packer.coreBuild (which is our one and only packer.Build ) a public struct with public fields ## 2. Components interfaces get a new ConfigSpec Method to read a file from an HCL file. This is a breaking change for packer plugins. a packer component can be a: builder/provisioner/post-processor each component interface now gets a `ConfigSpec() hcldec.ObjectSpec` which allows packer to tell what is the layout of the hcl2 config meant to configure that specific component. This ObjectSpec is sent through the wire (RPC) and a cty.Value is now sent through the already existing configuration entrypoints: Provisioner.Prepare(raws ...interface{}) error Builder.Prepare(raws ...interface{}) ([]string, error) PostProcessor.Configure(raws ...interface{}) error close #1768 Example hcl files: ```hcl // file amazon-ebs-kms-key/run.pkr.hcl build { sources = [ "source.amazon-ebs.first", ] provisioner "shell" { inline = [ "sleep 5" ] } post-processor "shell-local" { inline = [ "sleep 5" ] } } // amazon-ebs-kms-key/source.pkr.hcl source "amazon-ebs" "first" { ami_name = "hcl2-test" region = "us-east-1" instance_type = "t2.micro" kms_key_id = "c729958f-c6ba-44cd-ab39-35ab68ce0a6c" encrypt_boot = true source_ami_filter { filters { virtualization-type = "hvm" name = "amzn-ami-hvm-????.??.?.????????-x86_64-gp2" root-device-type = "ebs" } most_recent = true owners = ["amazon"] } launch_block_device_mappings { device_name = "/dev/xvda" volume_size = 20 volume_type = "gp2" delete_on_termination = "true" } launch_block_device_mappings { device_name = "/dev/xvdf" volume_size = 500 volume_type = "gp2" delete_on_termination = true encrypted = true } ami_regions = ["eu-central-1"] run_tags { Name = "packer-solr-something" stack-name = "DevOps Tools" } communicator = "ssh" ssh_pty = true ssh_username = "ec2-user" associate_public_ip_address = true } ```
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"github.com/hashicorp/hcl/v2/hcldec"
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"github.com/hashicorp/packer/template/interpolate"
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"github.com/mitchellh/mapstructure"
build using HCL2 (#8423) This follows #8232 which added the code to generate the code required to parse HCL files for each packer component. All old config files of packer will keep on working the same. Packer takes one argument. When a directory is passed, all files in the folder with a name ending with “.pkr.hcl” or “.pkr.json” will be parsed using the HCL2 format. When a file ending with “.pkr.hcl” or “.pkr.json” is passed it will be parsed using the HCL2 format. For every other case; the old packer style will be used. ## 1. the hcl2template pkg can create a packer.Build from a set of HCL (v2) files I had to make the packer.coreBuild (which is our one and only packer.Build ) a public struct with public fields ## 2. Components interfaces get a new ConfigSpec Method to read a file from an HCL file. This is a breaking change for packer plugins. a packer component can be a: builder/provisioner/post-processor each component interface now gets a `ConfigSpec() hcldec.ObjectSpec` which allows packer to tell what is the layout of the hcl2 config meant to configure that specific component. This ObjectSpec is sent through the wire (RPC) and a cty.Value is now sent through the already existing configuration entrypoints: Provisioner.Prepare(raws ...interface{}) error Builder.Prepare(raws ...interface{}) ([]string, error) PostProcessor.Configure(raws ...interface{}) error close #1768 Example hcl files: ```hcl // file amazon-ebs-kms-key/run.pkr.hcl build { sources = [ "source.amazon-ebs.first", ] provisioner "shell" { inline = [ "sleep 5" ] } post-processor "shell-local" { inline = [ "sleep 5" ] } } // amazon-ebs-kms-key/source.pkr.hcl source "amazon-ebs" "first" { ami_name = "hcl2-test" region = "us-east-1" instance_type = "t2.micro" kms_key_id = "c729958f-c6ba-44cd-ab39-35ab68ce0a6c" encrypt_boot = true source_ami_filter { filters { virtualization-type = "hvm" name = "amzn-ami-hvm-????.??.?.????????-x86_64-gp2" root-device-type = "ebs" } most_recent = true owners = ["amazon"] } launch_block_device_mappings { device_name = "/dev/xvda" volume_size = 20 volume_type = "gp2" delete_on_termination = "true" } launch_block_device_mappings { device_name = "/dev/xvdf" volume_size = 500 volume_type = "gp2" delete_on_termination = true encrypted = true } ami_regions = ["eu-central-1"] run_tags { Name = "packer-solr-something" stack-name = "DevOps Tools" } communicator = "ssh" ssh_pty = true ssh_username = "ec2-user" associate_public_ip_address = true } ```
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"github.com/zclconf/go-cty/cty"
"github.com/zclconf/go-cty/cty/gocty"
ctyjson "github.com/zclconf/go-cty/cty/json"
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)
// DecodeOpts are the options for decoding configuration.
type DecodeOpts struct {
// Metadata, if non-nil, will be set to the metadata post-decode
Metadata *mapstructure.Metadata
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// Interpolate, if true, will automatically interpolate the
// configuration with the given InterpolateContext. User variables
// will be automatically detected and added in-place to the given
// context.
Interpolate bool
InterpolateContext *interpolate.Context
InterpolateFilter *interpolate.RenderFilter
DecodeHooks []mapstructure.DecodeHookFunc
}
var DefaultDecodeHookFuncs = []mapstructure.DecodeHookFunc{
uint8ToStringHook,
stringToTrilean,
mapstructure.StringToSliceHookFunc(","),
mapstructure.StringToTimeDurationHookFunc(),
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}
// Decode decodes the configuration into the target and optionally
// automatically interpolates all the configuration as it goes.
func Decode(target interface{}, config *DecodeOpts, raws ...interface{}) error {
build using HCL2 (#8423) This follows #8232 which added the code to generate the code required to parse HCL files for each packer component. All old config files of packer will keep on working the same. Packer takes one argument. When a directory is passed, all files in the folder with a name ending with “.pkr.hcl” or “.pkr.json” will be parsed using the HCL2 format. When a file ending with “.pkr.hcl” or “.pkr.json” is passed it will be parsed using the HCL2 format. For every other case; the old packer style will be used. ## 1. the hcl2template pkg can create a packer.Build from a set of HCL (v2) files I had to make the packer.coreBuild (which is our one and only packer.Build ) a public struct with public fields ## 2. Components interfaces get a new ConfigSpec Method to read a file from an HCL file. This is a breaking change for packer plugins. a packer component can be a: builder/provisioner/post-processor each component interface now gets a `ConfigSpec() hcldec.ObjectSpec` which allows packer to tell what is the layout of the hcl2 config meant to configure that specific component. This ObjectSpec is sent through the wire (RPC) and a cty.Value is now sent through the already existing configuration entrypoints: Provisioner.Prepare(raws ...interface{}) error Builder.Prepare(raws ...interface{}) ([]string, error) PostProcessor.Configure(raws ...interface{}) error close #1768 Example hcl files: ```hcl // file amazon-ebs-kms-key/run.pkr.hcl build { sources = [ "source.amazon-ebs.first", ] provisioner "shell" { inline = [ "sleep 5" ] } post-processor "shell-local" { inline = [ "sleep 5" ] } } // amazon-ebs-kms-key/source.pkr.hcl source "amazon-ebs" "first" { ami_name = "hcl2-test" region = "us-east-1" instance_type = "t2.micro" kms_key_id = "c729958f-c6ba-44cd-ab39-35ab68ce0a6c" encrypt_boot = true source_ami_filter { filters { virtualization-type = "hvm" name = "amzn-ami-hvm-????.??.?.????????-x86_64-gp2" root-device-type = "ebs" } most_recent = true owners = ["amazon"] } launch_block_device_mappings { device_name = "/dev/xvda" volume_size = 20 volume_type = "gp2" delete_on_termination = "true" } launch_block_device_mappings { device_name = "/dev/xvdf" volume_size = 500 volume_type = "gp2" delete_on_termination = true encrypted = true } ami_regions = ["eu-central-1"] run_tags { Name = "packer-solr-something" stack-name = "DevOps Tools" } communicator = "ssh" ssh_pty = true ssh_username = "ec2-user" associate_public_ip_address = true } ```
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for i, raw := range raws {
// check for cty values and transform them to json then to a
// map[string]interface{} so that mapstructure can do its thing.
cval, ok := raw.(cty.Value)
if !ok {
continue
}
type flatConfigurer interface {
FlatMapstructure() interface{ HCL2Spec() map[string]hcldec.Spec }
}
ctarget := target.(flatConfigurer)
flatCfg := ctarget.FlatMapstructure()
err := gocty.FromCtyValue(cval, flatCfg)
if err != nil {
switch err := err.(type) {
case cty.PathError:
return fmt.Errorf("%v: %v", err, err.Path)
}
return err
}
b, err := ctyjson.SimpleJSONValue{Value: cval}.MarshalJSON()
if err != nil {
return err
}
var raw map[string]interface{}
if err := json.Unmarshal(b, &raw); err != nil {
return err
}
raws[i] = raw
}
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if config == nil {
config = &DecodeOpts{Interpolate: true}
}
// Detect user variables from the raws and merge them into our context
ctxData, raws := DetectContextData(raws...)
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// Interpolate first
if config.Interpolate {
ctx, err := DetectContext(raws...)
if err != nil {
return err
}
if config.InterpolateContext == nil {
config.InterpolateContext = ctx
} else {
config.InterpolateContext.BuildName = ctx.BuildName
config.InterpolateContext.BuildType = ctx.BuildType
config.InterpolateContext.TemplatePath = ctx.TemplatePath
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config.InterpolateContext.UserVariables = ctx.UserVariables
if config.InterpolateContext.Data == nil {
config.InterpolateContext.Data = ctxData
}
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}
ctx = config.InterpolateContext
// Render everything
for i, raw := range raws {
m, err := interpolate.RenderMap(raw, ctx, config.InterpolateFilter)
if err != nil {
return err
}
raws[i] = m
}
}
decodeHookFuncs := DefaultDecodeHookFuncs
if len(config.DecodeHooks) != 0 {
decodeHookFuncs = config.DecodeHooks
}
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// Build our decoder
var md mapstructure.Metadata
decoder, err := mapstructure.NewDecoder(&mapstructure.DecoderConfig{
Result: target,
Metadata: &md,
WeaklyTypedInput: true,
DecodeHook: mapstructure.ComposeDecodeHookFunc(decodeHookFuncs...),
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})
if err != nil {
return err
}
for _, raw := range raws {
if err := decoder.Decode(raw); err != nil {
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return err
}
}
// Set the metadata if it is set
if config.Metadata != nil {
*config.Metadata = md
}
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// If we have unused keys, it is an error
if len(md.Unused) > 0 {
var err error
sort.Strings(md.Unused)
for _, unused := range md.Unused {
if unused != "type" && !strings.HasPrefix(unused, "packer_") {
err = multierror.Append(err, fmt.Errorf(
"unknown configuration key: %q; raws is %#v \n\n and ctx data is %#v", unused, raws, ctxData))
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}
}
if err != nil {
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return err
}
}
return nil
}
func DetectContextData(raws ...interface{}) (map[interface{}]interface{}, []interface{}) {
// In provisioners, the last value pulled from raws is the placeholder data
// for build-specific variables. Pull these out to add to interpolation
// context.
// Internally, our tests may cause this to be read as a map[string]string
placeholderData := raws[len(raws)-1]
if pd, ok := placeholderData.(map[string]string); ok {
if uuid, ok := pd["PackerRunUUID"]; ok {
if strings.Contains(uuid, "Generated_PackerRunUUID.") {
cast := make(map[interface{}]interface{})
for k, v := range pd {
cast[k] = v
}
raws = raws[:len(raws)-1]
return cast, raws
}
}
}
// but with normal interface conversion across the rpc, it'll look like a
// map[interface]interface, not a map[string]string
if pd, ok := placeholderData.(map[interface{}]interface{}); ok {
if uuid, ok := pd["PackerRunUUID"]; ok {
if strings.Contains(uuid.(string), "Generated_PackerRunUUID.") {
raws = raws[:len(raws)-1]
return pd, raws
}
}
}
return nil, raws
}
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// DetectContext builds a base interpolate.Context, automatically
// detecting things like user variables from the raw configuration params.
func DetectContext(raws ...interface{}) (*interpolate.Context, error) {
var s struct {
BuildName string `mapstructure:"packer_build_name"`
BuildType string `mapstructure:"packer_builder_type"`
TemplatePath string `mapstructure:"packer_template_path"`
Vars map[string]string `mapstructure:"packer_user_variables"`
SensitiveVars []string `mapstructure:"packer_sensitive_variables"`
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}
for _, r := range raws {
if err := mapstructure.Decode(r, &s); err != nil {
return nil, err
}
}
return &interpolate.Context{
BuildName: s.BuildName,
BuildType: s.BuildType,
TemplatePath: s.TemplatePath,
UserVariables: s.Vars,
SensitiveVariables: s.SensitiveVars,
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}, nil
}
func uint8ToStringHook(f reflect.Kind, t reflect.Kind, v interface{}) (interface{}, error) {
// We need to convert []uint8 to string. We have to do this
// because internally Packer uses MsgPack for RPC and the MsgPack
// codec turns strings into []uint8
if f == reflect.Slice && t == reflect.String {
dataVal := reflect.ValueOf(v)
dataType := dataVal.Type()
elemKind := dataType.Elem().Kind()
if elemKind == reflect.Uint8 {
v = string(dataVal.Interface().([]uint8))
}
}
return v, nil
}
func stringToTrilean(f reflect.Type, t reflect.Type, v interface{}) (interface{}, error) {
// We have a custom data type, config, which we read from a string and
// then cast to a *bool. Why? So that we can appropriately read "unset"
// *bool values in order to intelligently default, even when the values are
// being set by a template variable.
testTril, _ := TrileanFromString("")
if t == reflect.TypeOf(testTril) {
// From value is string
if f == reflect.TypeOf("") {
tril, err := TrileanFromString(v.(string))
if err != nil {
return v, fmt.Errorf("Error parsing bool from given var: %s", err)
}
return tril, nil
} else {
// From value is boolean
if f == reflect.TypeOf(true) {
tril := TrileanFromBool(v.(bool))
return tril, nil
}
}
}
return v, nil
}