packer-cn/builder/vmware/iso/config.go

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//go:generate struct-markdown
//go:generate mapstructure-to-hcl2 -type Config
package iso
import (
"fmt"
"io/ioutil"
"os"
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"strings"
vmwcommon "github.com/hashicorp/packer/builder/vmware/common"
"github.com/hashicorp/packer/common"
"github.com/hashicorp/packer/common/bootcommand"
"github.com/hashicorp/packer/common/shutdowncommand"
"github.com/hashicorp/packer/helper/config"
"github.com/hashicorp/packer/packer"
"github.com/hashicorp/packer/template/interpolate"
)
type Config struct {
common.PackerConfig `mapstructure:",squash"`
common.HTTPConfig `mapstructure:",squash"`
common.ISOConfig `mapstructure:",squash"`
common.FloppyConfig `mapstructure:",squash"`
bootcommand.VNCConfig `mapstructure:",squash"`
vmwcommon.DriverConfig `mapstructure:",squash"`
vmwcommon.HWConfig `mapstructure:",squash"`
vmwcommon.OutputConfig `mapstructure:",squash"`
vmwcommon.RunConfig `mapstructure:",squash"`
shutdowncommand.ShutdownConfig `mapstructure:",squash"`
vmwcommon.SSHConfig `mapstructure:",squash"`
vmwcommon.ToolsConfig `mapstructure:",squash"`
vmwcommon.VMXConfig `mapstructure:",squash"`
vmwcommon.ExportConfig `mapstructure:",squash"`
// The size(s) of any additional
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// hard disks for the VM in megabytes. If this is not specified then the VM
// will only contain a primary hard disk. The builder uses expandable, not
// fixed-size virtual hard disks, so the actual file representing the disk will
// not use the full size unless it is full.
AdditionalDiskSize []uint `mapstructure:"disk_additional_size" required:"false"`
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// The adapter type of the VMware virtual disk to create. This option is
// for advanced usage, modify only if you know what you're doing. Some of
// the options you can specify are `ide`, `sata`, `nvme` or `scsi` (which
// uses the "lsilogic" scsi interface by default). If you specify another
// option, Packer will assume that you're specifying a `scsi` interface of
// that specified type. For more information, please consult [Virtual Disk
// Manager User's Guide](http://www.vmware.com/pdf/VirtualDiskManager.pdf)
// for desktop VMware clients. For ESXi, refer to the proper ESXi
// documentation.
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DiskAdapterType string `mapstructure:"disk_adapter_type" required:"false"`
// The filename of the virtual disk that'll be created,
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// without the extension. This defaults to packer.
DiskName string `mapstructure:"vmdk_name" required:"false"`
// The size of the hard disk for the VM in megabytes.
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// The builder uses expandable, not fixed-size virtual hard disks, so the
// actual file representing the disk will not use the full size unless it
// is full. By default this is set to 40000 (about 40 GB).
DiskSize uint `mapstructure:"disk_size" required:"false"`
// The type of VMware virtual disk to create. This
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// option is for advanced usage.
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//
// For desktop VMware clients:
//
// Type ID | Description
// ------- | ---
// `0` | Growable virtual disk contained in a single file (monolithic sparse).
// `1` | Growable virtual disk split into 2GB files (split sparse).
// `2` | Preallocated virtual disk contained in a single file (monolithic flat).
// `3` | Preallocated virtual disk split into 2GB files (split flat).
// `4` | Preallocated virtual disk compatible with ESX server (VMFS flat).
// `5` | Compressed disk optimized for streaming.
//
// The default is `1`.
//
// For ESXi, this defaults to `zeroedthick`. The available options for ESXi
// are: `zeroedthick`, `eagerzeroedthick`, `thin`. `rdm:dev`, `rdmp:dev`,
// `2gbsparse` are not supported. Due to default disk compaction, when using
// `zeroedthick` or `eagerzeroedthick` set `skip_compaction` to `true`.
//
// For more information, please consult the [Virtual Disk Manager User's
// Guide](https://www.vmware.com/pdf/VirtualDiskManager.pdf) for desktop
// VMware clients. For ESXi, refer to the proper ESXi documentation.
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DiskTypeId string `mapstructure:"disk_type_id" required:"false"`
// The adapter type (or bus) that will be used
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// by the cdrom device. This is chosen by default based on the disk adapter
// type. VMware tends to lean towards ide for the cdrom device unless
// sata is chosen for the disk adapter and so Packer attempts to mirror
// this logic. This field can be specified as either ide, sata, or scsi.
CdromAdapterType string `mapstructure:"cdrom_adapter_type" required:"false"`
// The guest OS type being installed. This will be
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// set in the VMware VMX. By default this is other. By specifying a more
// specific OS type, VMware may perform some optimizations or virtual hardware
// changes to better support the operating system running in the
// virtual machine. Valid values differ by platform and version numbers, and may
// not match other VMware API's representation of the guest OS names. Consult your
// platform for valid values.
GuestOSType string `mapstructure:"guest_os_type" required:"false"`
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// The [vmx hardware
// version](http://kb.vmware.com/selfservice/microsites/search.do?language=en_US&cmd=displayKC&externalId=1003746)
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// for the new virtual machine. Only the default value has been tested, any
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// other value is experimental. Default value is `9`.
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Version string `mapstructure:"version" required:"false"`
// This is the name of the VMX file for the new virtual
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// machine, without the file extension. By default this is packer-BUILDNAME,
// where "BUILDNAME" is the name of the build.
VMName string `mapstructure:"vm_name" required:"false"`
VMXDiskTemplatePath string `mapstructure:"vmx_disk_template_path"`
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// Path to a [configuration template](/docs/templates/engine.html) that
// defines the contents of the virtual machine VMX file for VMware. This is
// for **advanced users only** as this can render the virtual machine
// non-functional. See below for more information. For basic VMX
// modifications, try `vmx_data` first.
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VMXTemplatePath string `mapstructure:"vmx_template_path" required:"false"`
ctx interpolate.Context
}
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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func (c *Config) Prepare(raws ...interface{}) ([]string, error) {
err := config.Decode(c, &config.DecodeOpts{
Interpolate: true,
InterpolateContext: &c.ctx,
InterpolateFilter: &interpolate.RenderFilter{
Exclude: []string{
"boot_command",
"tools_upload_path",
},
},
}, raws...)
if err != nil {
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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return nil, err
}
// Accumulate any errors and warnings
var errs *packer.MultiError
warnings := make([]string, 0)
isoWarnings, isoErrs := c.ISOConfig.Prepare(&c.ctx)
warnings = append(warnings, isoWarnings...)
errs = packer.MultiErrorAppend(errs, isoErrs...)
errs = packer.MultiErrorAppend(errs, c.HTTPConfig.Prepare(&c.ctx)...)
errs = packer.MultiErrorAppend(errs, c.HWConfig.Prepare(&c.ctx)...)
errs = packer.MultiErrorAppend(errs, c.DriverConfig.Prepare(&c.ctx)...)
errs = packer.MultiErrorAppend(errs,
c.OutputConfig.Prepare(&c.ctx, &c.PackerConfig)...)
errs = packer.MultiErrorAppend(errs, c.RunConfig.Prepare(&c.ctx)...)
errs = packer.MultiErrorAppend(errs, c.ShutdownConfig.Prepare(&c.ctx)...)
errs = packer.MultiErrorAppend(errs, c.SSHConfig.Prepare(&c.ctx)...)
errs = packer.MultiErrorAppend(errs, c.ToolsConfig.Prepare(&c.ctx)...)
errs = packer.MultiErrorAppend(errs, c.VMXConfig.Prepare(&c.ctx)...)
errs = packer.MultiErrorAppend(errs, c.FloppyConfig.Prepare(&c.ctx)...)
errs = packer.MultiErrorAppend(errs, c.VNCConfig.Prepare(&c.ctx)...)
errs = packer.MultiErrorAppend(errs, c.ExportConfig.Prepare(&c.ctx)...)
if c.DiskName == "" {
c.DiskName = "disk"
}
if c.DiskSize == 0 {
c.DiskSize = 40000
}
if c.DiskAdapterType == "" {
// Default is lsilogic
c.DiskAdapterType = "lsilogic"
}
if !c.SkipCompaction {
if c.RemoteType == "esx5" {
if c.DiskTypeId == "" {
c.SkipCompaction = true
}
}
}
if c.DiskTypeId == "" {
// Default is growable virtual disk split in 2GB files.
c.DiskTypeId = "1"
if c.RemoteType == "esx5" {
c.DiskTypeId = "zeroedthick"
}
}
if c.RemoteType == "esx5" {
if c.DiskTypeId != "thin" && !c.SkipCompaction {
errs = packer.MultiErrorAppend(
errs, fmt.Errorf("skip_compaction must be 'true' for disk_type_id: %s", c.DiskTypeId))
}
}
if c.GuestOSType == "" {
c.GuestOSType = "other"
}
if c.VMName == "" {
c.VMName = fmt.Sprintf("packer-%s", c.PackerBuildName)
}
if c.Version == "" {
c.Version = "9"
}
if c.VMXTemplatePath != "" {
if err := c.validateVMXTemplatePath(); err != nil {
errs = packer.MultiErrorAppend(
errs, fmt.Errorf("vmx_template_path is invalid: %s", err))
}
} else {
warn := c.checkForVMXTemplateAndVMXDataCollisions()
if warn != "" {
warnings = append(warnings, warn)
}
}
if c.HWConfig.Network == "" {
c.HWConfig.Network = "nat"
}
// Remote configuration validation
if c.RemoteType != "" {
if c.RemoteHost == "" {
errs = packer.MultiErrorAppend(errs,
fmt.Errorf("remote_host must be specified"))
}
if c.RemoteType != "esx5" {
errs = packer.MultiErrorAppend(errs,
fmt.Errorf("Only 'esx5' value is accepted for remote_type"))
}
}
if c.Format != "" {
if c.RemoteType != "esx5" {
errs = packer.MultiErrorAppend(errs,
fmt.Errorf("format is only valid when RemoteType=esx5"))
}
} else {
c.Format = "ovf"
}
if !(c.Format == "ova" || c.Format == "ovf" || c.Format == "vmx") {
errs = packer.MultiErrorAppend(errs,
fmt.Errorf("format must be one of ova, ovf, or vmx"))
}
err = c.DriverConfig.Validate(c.SkipExport)
if err != nil {
errs = packer.MultiErrorAppend(errs, err)
}
// Warnings
if c.ShutdownCommand == "" {
warnings = append(warnings,
"A shutdown_command was not specified. Without a shutdown command, Packer\n"+
"will forcibly halt the virtual machine, which may result in data loss.")
}
if c.Headless && c.DisableVNC {
warnings = append(warnings,
"Headless mode uses VNC to retrieve output. Since VNC has been disabled,\n"+
"you won't be able to see any output.")
}
if errs != nil && len(errs.Errors) > 0 {
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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return warnings, errs
}
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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return warnings, nil
}
func (c *Config) checkForVMXTemplateAndVMXDataCollisions() string {
if c.VMXTemplatePath != "" {
return ""
}
var overridden []string
tplLines := strings.Split(DefaultVMXTemplate, "\n")
tplLines = append(tplLines,
fmt.Sprintf("%s0:0.present", strings.ToLower(c.DiskAdapterType)),
fmt.Sprintf("%s0:0.fileName", strings.ToLower(c.DiskAdapterType)),
fmt.Sprintf("%s0:0.deviceType", strings.ToLower(c.DiskAdapterType)),
fmt.Sprintf("%s0:1.present", strings.ToLower(c.DiskAdapterType)),
fmt.Sprintf("%s0:1.fileName", strings.ToLower(c.DiskAdapterType)),
fmt.Sprintf("%s0:1.deviceType", strings.ToLower(c.DiskAdapterType)),
)
for _, line := range tplLines {
if strings.Contains(line, `{{`) {
key := line[:strings.Index(line, " =")]
if _, ok := c.VMXData[key]; ok {
overridden = append(overridden, key)
}
}
}
if len(overridden) > 0 {
warnings := fmt.Sprintf("Your vmx data contains the following "+
"variable(s), which Packer normally sets when it generates its "+
"own default vmx template. This may cause your build to fail or "+
"behave unpredictably: %s", strings.Join(overridden, ", "))
return warnings
}
return ""
}
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// Make sure custom vmx template exists and that data can be read from it
func (c *Config) validateVMXTemplatePath() error {
f, err := os.Open(c.VMXTemplatePath)
if err != nil {
return err
}
defer f.Close()
data, err := ioutil.ReadAll(f)
if err != nil {
return err
}
return interpolate.Validate(string(data), &c.ctx)
}