packer-cn/builder/qemu/builder.go

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//go:generate struct-markdown
//go:generate mapstructure-to-hcl2 -type Config
package qemu
import (
"context"
"errors"
"fmt"
"log"
"os"
"os/exec"
"path/filepath"
"regexp"
"runtime"
"strings"
"time"
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/common"
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"github.com/hashicorp/packer/common/bootcommand"
"github.com/hashicorp/packer/common/shutdowncommand"
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"github.com/hashicorp/packer/helper/communicator"
"github.com/hashicorp/packer/helper/config"
"github.com/hashicorp/packer/helper/multistep"
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"github.com/hashicorp/packer/packer"
"github.com/hashicorp/packer/template/interpolate"
)
const BuilderId = "transcend.qemu"
var accels = map[string]struct{}{
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"none": {},
"kvm": {},
"tcg": {},
"xen": {},
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"hax": {},
"hvf": {},
"whpx": {},
}
var netDevice = map[string]bool{
"ne2k_pci": true,
"i82551": true,
"i82557b": true,
"i82559er": true,
"rtl8139": true,
"e1000": true,
"pcnet": true,
"virtio": true,
"virtio-net": true,
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"virtio-net-pci": true,
"usb-net": true,
"i82559a": true,
"i82559b": true,
"i82559c": true,
"i82550": true,
"i82562": true,
"i82557a": true,
"i82557c": true,
"i82801": true,
"vmxnet3": true,
"i82558a": true,
"i82558b": true,
}
var diskInterface = map[string]bool{
"ide": true,
"scsi": true,
"virtio": true,
"virtio-scsi": true,
}
var diskCache = map[string]bool{
"writethrough": true,
"writeback": true,
"none": true,
"unsafe": true,
"directsync": true,
}
var diskDiscard = map[string]bool{
"unmap": true,
"ignore": true,
}
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var diskDZeroes = map[string]bool{
"unmap": true,
"on": true,
"off": true,
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}
type Builder struct {
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config Config
runner multistep.Runner
}
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type Config struct {
common.PackerConfig `mapstructure:",squash"`
common.HTTPConfig `mapstructure:",squash"`
common.ISOConfig `mapstructure:",squash"`
bootcommand.VNCConfig `mapstructure:",squash"`
shutdowncommand.ShutdownConfig `mapstructure:",squash"`
Comm communicator.Config `mapstructure:",squash"`
common.FloppyConfig `mapstructure:",squash"`
// Use iso from provided url. Qemu must support
// curl block device. This defaults to `false`.
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ISOSkipCache bool `mapstructure:"iso_skip_cache" required:"false"`
// The accelerator type to use when running the VM.
// This may be `none`, `kvm`, `tcg`, `hax`, `hvf`, `whpx`, or `xen`. The appropriate
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// software must have already been installed on your build machine to use the
// accelerator you specified. When no accelerator is specified, Packer will try
// to use `kvm` if it is available but will default to `tcg` otherwise.
//
// -> The `hax` accelerator has issues attaching CDROM ISOs. This is an
// upstream issue which can be tracked
// [here](https://github.com/intel/haxm/issues/20).
//
// -> The `hvf` and `whpx` accelerator are new and experimental as of
// [QEMU 2.12.0](https://wiki.qemu.org/ChangeLog/2.12#Host_support).
// You may encounter issues unrelated to Packer when using these. You may need to
// add [ "-global", "virtio-pci.disable-modern=on" ] to `qemuargs` depending on the
// guest operating system.
//
// -> For `whpx`, note that [Stefan Weil's QEMU for Windows distribution](https://qemu.weilnetz.de/w64/)
// does not include WHPX support and users may need to compile or source a
// build of QEMU for Windows themselves with WHPX support.
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Accelerator string `mapstructure:"accelerator" required:"false"`
// Additional disks to create. Uses `vm_name` as the disk name template and
// appends `-#` where `#` is the position in the array. `#` starts at 1 since 0
// is the default disk. Each string represents the disk image size in bytes.
// Optional suffixes 'k' or 'K' (kilobyte, 1024), 'M' (megabyte, 1024k), 'G'
// (gigabyte, 1024M), 'T' (terabyte, 1024G), 'P' (petabyte, 1024T) and 'E'
// (exabyte, 1024P) are supported. 'b' is ignored. Per qemu-img documentation.
// Each additional disk uses the same disk parameters as the default disk.
// Unset by default.
AdditionalDiskSize []string `mapstructure:"disk_additional_size" required:"false"`
// The number of cpus to use when building the VM.
// The default is `1` CPU.
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CpuCount int `mapstructure:"cpus" required:"false"`
// The interface to use for the disk. Allowed values include any of `ide`,
// `scsi`, `virtio` or `virtio-scsi`^\*. Note also that any boot commands
// or kickstart type scripts must have proper adjustments for resulting
// device names. The Qemu builder uses `virtio` by default.
//
// ^\* Please be aware that use of the `scsi` disk interface has been
// disabled by Red Hat due to a bug described
// [here](https://bugzilla.redhat.com/show_bug.cgi?id=1019220). If you are
// running Qemu on RHEL or a RHEL variant such as CentOS, you *must* choose
// one of the other listed interfaces. Using the `scsi` interface under
// these circumstances will cause the build to fail.
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DiskInterface string `mapstructure:"disk_interface" required:"false"`
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// The size in bytes of the hard disk of the VM. Suffix with the first
// letter of common byte types. Use "k" or "K" for kilobytes, "M" for
// megabytes, G for gigabytes, and T for terabytes. If no value is provided
// for disk_size, Packer uses a default of `40960M` (40 GB). If a disk_size
// number is provided with no units, Packer will default to Megabytes.
DiskSize string `mapstructure:"disk_size" required:"false"`
// The cache mode to use for disk. Allowed values include any of
// `writethrough`, `writeback`, `none`, `unsafe` or `directsync`. By
// default, this is set to `writeback`.
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DiskCache string `mapstructure:"disk_cache" required:"false"`
// The discard mode to use for disk. Allowed values
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// include any of unmap or ignore. By default, this is set to ignore.
DiskDiscard string `mapstructure:"disk_discard" required:"false"`
// The detect-zeroes mode to use for disk.
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// Allowed values include any of unmap, on or off. Defaults to off.
// When the value is "off" we don't set the flag in the qemu command, so that
// Packer still works with old versions of QEMU that don't have this option.
DetectZeroes string `mapstructure:"disk_detect_zeroes" required:"false"`
// Packer compacts the QCOW2 image using
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// qemu-img convert. Set this option to true to disable compacting.
// Defaults to false.
SkipCompaction bool `mapstructure:"skip_compaction" required:"false"`
// Apply compression to the QCOW2 disk file
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// using qemu-img convert. Defaults to false.
DiskCompression bool `mapstructure:"disk_compression" required:"false"`
// Either `qcow2` or `raw`, this specifies the output format of the virtual
// machine image. This defaults to `qcow2`.
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Format string `mapstructure:"format" required:"false"`
// Packer defaults to building QEMU virtual machines by
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// launching a GUI that shows the console of the machine being built. When this
// value is set to `true`, the machine will start without a console.
//
// You can still see the console if you make a note of the VNC display
// number chosen, and then connect using `vncviewer -Shared <host>:<display>`
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Headless bool `mapstructure:"headless" required:"false"`
// Packer defaults to building from an ISO file, this parameter controls
// whether the ISO URL supplied is actually a bootable QEMU image. When
// this value is set to `true`, the machine will either clone the source or
// use it as a backing file (if `use_backing_file` is `true`); then, it
// will resize the image according to `disk_size` and boot it.
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DiskImage bool `mapstructure:"disk_image" required:"false"`
// Only applicable when disk_image is true
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// and format is qcow2, set this option to true to create a new QCOW2
// file that uses the file located at iso_url as a backing file. The new file
// will only contain blocks that have changed compared to the backing file, so
// enabling this option can significantly reduce disk usage.
UseBackingFile bool `mapstructure:"use_backing_file" required:"false"`
// The type of machine emulation to use. Run your qemu binary with the
// flags `-machine help` to list available types for your system. This
// defaults to `pc`.
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MachineType string `mapstructure:"machine_type" required:"false"`
// The amount of memory to use when building the VM
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// in megabytes. This defaults to 512 megabytes.
MemorySize int `mapstructure:"memory" required:"false"`
// The driver to use for the network interface. Allowed values `ne2k_pci`,
// `i82551`, `i82557b`, `i82559er`, `rtl8139`, `e1000`, `pcnet`, `virtio`,
// `virtio-net`, `virtio-net-pci`, `usb-net`, `i82559a`, `i82559b`,
// `i82559c`, `i82550`, `i82562`, `i82557a`, `i82557c`, `i82801`,
// `vmxnet3`, `i82558a` or `i82558b`. The Qemu builder uses `virtio-net` by
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// default.
NetDevice string `mapstructure:"net_device" required:"false"`
// This is the path to the directory where the
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// resulting virtual machine will be created. This may be relative or absolute.
// If relative, the path is relative to the working directory when packer
// is executed. This directory must not exist or be empty prior to running
// the builder. By default this is output-BUILDNAME where "BUILDNAME" is the
// name of the build.
OutputDir string `mapstructure:"output_directory" required:"false"`
// Allows complete control over the qemu command line (though not, at this
// time, qemu-img). Each array of strings makes up a command line switch
// that overrides matching default switch/value pairs. Any value specified
// as an empty string is ignored. All values after the switch are
// concatenated with no separator.
//
// ~&gt; **Warning:** The qemu command line allows extreme flexibility, so
// beware of conflicting arguments causing failures of your run. For
// instance, using --no-acpi could break the ability to send power signal
// type commands (e.g., shutdown -P now) to the virtual machine, thus
// preventing proper shutdown. To see the defaults, look in the packer.log
// file and search for the qemu-system-x86 command. The arguments are all
// printed for review.
//
// The following shows a sample usage:
//
// ``` json {
// "qemuargs": [
// [ "-m", "1024M" ],
// [ "--no-acpi", "" ],
// [
// "-netdev",
// "user,id=mynet0,",
// "hostfwd=hostip:hostport-guestip:guestport",
// ""
// ],
// [ "-device", "virtio-net,netdev=mynet0" ]
// ]
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// }
// ```
//
// would produce the following (not including other defaults supplied by
// the builder and not otherwise conflicting with the qemuargs):
//
// ``` text qemu-system-x86 -m 1024m --no-acpi -netdev
// user,id=mynet0,hostfwd=hostip:hostport-guestip:guestport -device
// virtio-net,netdev=mynet0" ```
//
// ~&gt; **Windows Users:** [QEMU for Windows](https://qemu.weilnetz.de/)
// builds are available though an environmental variable does need to be
// set for QEMU for Windows to redirect stdout to the console instead of
// stdout.txt.
//
// The following shows the environment variable that needs to be set for
// Windows QEMU support:
//
// ``` text setx SDL_STDIO_REDIRECT=0 ```
//
// You can also use the `SSHHostPort` template variable to produce a packer
// template that can be invoked by `make` in parallel:
//
// ``` json {
// "qemuargs": [
// [ "-netdev", "user,hostfwd=tcp::{{ .SSHHostPort }}-:22,id=forward"],
// [ "-device", "virtio-net,netdev=forward,id=net0"]
// ]
// } ```
//
// `make -j 3 my-awesome-packer-templates` spawns 3 packer processes, each
// of which will bind to their own SSH port as determined by each process.
// This will also work with WinRM, just change the port forward in
// `qemuargs` to map to WinRM's default port of `5985` or whatever value
// you have the service set to listen on.
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QemuArgs [][]string `mapstructure:"qemuargs" required:"false"`
// The name of the Qemu binary to look for. This
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// defaults to qemu-system-x86_64, but may need to be changed for
// some platforms. For example qemu-kvm, or qemu-system-i386 may be a
// better choice for some systems.
QemuBinary string `mapstructure:"qemu_binary" required:"false"`
// Enable QMP socket. Location is specified by `qmp_socket_path`. Defaults
// to false.
QMPEnable bool `mapstructure:"qmp_enable" required:"false"`
// QMP Socket Path when `qmp_enable` is true. Defaults to
// `output_directory`/`vm_name`.monitor.
QMPSocketPath string `mapstructure:"qmp_socket_path" required:"false"`
// The minimum and maximum port to use for the SSH port on the host machine
// which is forwarded to the SSH port on the guest machine. Because Packer
// often runs in parallel, Packer will choose a randomly available port in
// this range to use as the host port. By default this is 2222 to 4444.
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SSHHostPortMin int `mapstructure:"ssh_host_port_min" required:"false"`
SSHHostPortMax int `mapstructure:"ssh_host_port_max" required:"false"`
// If true, do not pass a -display option
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// to qemu, allowing it to choose the default. This may be needed when running
// under macOS, and getting errors about sdl not being available.
UseDefaultDisplay bool `mapstructure:"use_default_display" required:"false"`
// What QEMU -display option to use. Defaults to gtk, use none to not pass the
// -display option allowing QEMU to choose the default. This may be needed when
// running under macOS, and getting errors about sdl not being available.
Display string `mapstructure:"display" required:"false"`
// The IP address that should be
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// binded to for VNC. By default packer will use 127.0.0.1 for this. If you
// wish to bind to all interfaces use 0.0.0.0.
VNCBindAddress string `mapstructure:"vnc_bind_address" required:"false"`
// Whether or not to set a password on the VNC server. This option
// automatically enables the QMP socket. See `qmp_socket_path`. Defaults to
// `false`.
VNCUsePassword bool `mapstructure:"vnc_use_password" required:"false"`
// The minimum and maximum port
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// to use for VNC access to the virtual machine. The builder uses VNC to type
// the initial boot_command. Because Packer generally runs in parallel,
// Packer uses a randomly chosen port in this range that appears available. By
// default this is 5900 to 6000. The minimum and maximum ports are inclusive.
VNCPortMin int `mapstructure:"vnc_port_min" required:"false"`
VNCPortMax int `mapstructure:"vnc_port_max"`
// This is the name of the image (QCOW2 or IMG) file for
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// the new virtual machine. By default this is packer-BUILDNAME, where
// "BUILDNAME" is the name of the build. Currently, no file extension will be
// used unless it is specified in this option.
VMName string `mapstructure:"vm_name" required:"false"`
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// These are deprecated, but we keep them around for BC
// TODO: remove later
SSHWaitTimeout time.Duration `mapstructure:"ssh_wait_timeout" required:"false"`
// TODO(mitchellh): deprecate
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RunOnce bool `mapstructure:"run_once"`
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 (b *Builder) ConfigSpec() hcldec.ObjectSpec { return b.config.FlatMapstructure().HCL2Spec() }
func (b *Builder) Prepare(raws ...interface{}) ([]string, []string, error) {
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err := config.Decode(&b.config, &config.DecodeOpts{
Interpolate: true,
InterpolateContext: &b.config.ctx,
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InterpolateFilter: &interpolate.RenderFilter{
Exclude: []string{
"boot_command",
"qemuargs",
},
},
}, raws...)
if err != nil {
return nil, nil, err
}
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var errs *packer.MultiError
warnings := make([]string, 0)
errs = packer.MultiErrorAppend(errs, b.config.ShutdownConfig.Prepare(&b.config.ctx)...)
if b.config.DiskSize == "" || b.config.DiskSize == "0" {
b.config.DiskSize = "40960M"
} else {
// Make sure supplied disk size is valid
// (digits, plus an optional valid unit character). e.g. 5000, 40G, 1t
re := regexp.MustCompile(`^[\d]+(b|k|m|g|t){0,1}$`)
matched := re.MatchString(strings.ToLower(b.config.DiskSize))
if !matched {
errs = packer.MultiErrorAppend(errs, fmt.Errorf("Invalid disk size."))
} else {
// Okay, it's valid -- if it doesn't alreay have a suffix, then
// append "M" as the default unit.
re = regexp.MustCompile(`^[\d]+$`)
matched = re.MatchString(strings.ToLower(b.config.DiskSize))
if matched {
// Needs M added.
b.config.DiskSize = fmt.Sprintf("%sM", b.config.DiskSize)
}
}
}
if b.config.DiskCache == "" {
b.config.DiskCache = "writeback"
}
if b.config.DiskDiscard == "" {
b.config.DiskDiscard = "ignore"
}
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if b.config.DetectZeroes == "" {
b.config.DetectZeroes = "off"
}
if b.config.Accelerator == "" {
if runtime.GOOS == "windows" {
b.config.Accelerator = "tcg"
} else {
// /dev/kvm is a kernel module that may be loaded if kvm is
// installed and the host supports VT-x extensions. To make sure
// this will actually work we need to os.Open() it. If os.Open fails
// the kernel module was not installed or loaded correctly.
if fp, err := os.Open("/dev/kvm"); err != nil {
b.config.Accelerator = "tcg"
} else {
fp.Close()
b.config.Accelerator = "kvm"
}
}
log.Printf("use detected accelerator: %s", b.config.Accelerator)
} else {
log.Printf("use specified accelerator: %s", b.config.Accelerator)
}
if b.config.MachineType == "" {
b.config.MachineType = "pc"
}
if b.config.OutputDir == "" {
b.config.OutputDir = fmt.Sprintf("output-%s", b.config.PackerBuildName)
}
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if b.config.QemuBinary == "" {
b.config.QemuBinary = "qemu-system-x86_64"
}
if b.config.MemorySize < 10 {
log.Printf("MemorySize %d is too small, using default: 512", b.config.MemorySize)
b.config.MemorySize = 512
}
if b.config.CpuCount < 1 {
log.Printf("CpuCount %d too small, using default: 1", b.config.CpuCount)
b.config.CpuCount = 1
}
if b.config.SSHHostPortMin == 0 {
b.config.SSHHostPortMin = 2222
}
if b.config.SSHHostPortMax == 0 {
b.config.SSHHostPortMax = 4444
}
if b.config.VNCBindAddress == "" {
b.config.VNCBindAddress = "127.0.0.1"
}
if b.config.VNCPortMin == 0 {
b.config.VNCPortMin = 5900
}
if b.config.VNCPortMax == 0 {
b.config.VNCPortMax = 6000
}
if b.config.VMName == "" {
b.config.VMName = fmt.Sprintf("packer-%s", b.config.PackerBuildName)
}
if b.config.Format == "" {
b.config.Format = "qcow2"
}
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errs = packer.MultiErrorAppend(errs, b.config.FloppyConfig.Prepare(&b.config.ctx)...)
errs = packer.MultiErrorAppend(errs, b.config.VNCConfig.Prepare(&b.config.ctx)...)
if b.config.NetDevice == "" {
b.config.NetDevice = "virtio-net"
}
if b.config.DiskInterface == "" {
b.config.DiskInterface = "virtio"
}
// Backwards compatibility
if b.config.SSHWaitTimeout != 0 {
b.config.Comm.SSHTimeout = b.config.SSHWaitTimeout
}
if b.config.ISOSkipCache {
b.config.ISOChecksumType = "none"
}
isoWarnings, isoErrs := b.config.ISOConfig.Prepare(&b.config.ctx)
warnings = append(warnings, isoWarnings...)
errs = packer.MultiErrorAppend(errs, isoErrs...)
errs = packer.MultiErrorAppend(errs, b.config.HTTPConfig.Prepare(&b.config.ctx)...)
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if es := b.config.Comm.Prepare(&b.config.ctx); len(es) > 0 {
errs = packer.MultiErrorAppend(errs, es...)
}
if !(b.config.Format == "qcow2" || b.config.Format == "raw") {
errs = packer.MultiErrorAppend(
errs, errors.New("invalid format, only 'qcow2' or 'raw' are allowed"))
}
if b.config.Format != "qcow2" {
b.config.SkipCompaction = true
b.config.DiskCompression = false
}
if b.config.UseBackingFile && !(b.config.DiskImage && b.config.Format == "qcow2") {
errs = packer.MultiErrorAppend(
errs, errors.New("use_backing_file can only be enabled for QCOW2 images and when disk_image is true"))
}
if b.config.DiskImage && len(b.config.AdditionalDiskSize) > 0 {
errs = packer.MultiErrorAppend(
errs, errors.New("disk_additional_size can only be used when disk_image is false"))
}
if _, ok := accels[b.config.Accelerator]; !ok {
errs = packer.MultiErrorAppend(
errs, errors.New("invalid accelerator, only 'kvm', 'tcg', 'xen', 'hax', 'hvf', 'whpx', or 'none' are allowed"))
}
if _, ok := netDevice[b.config.NetDevice]; !ok {
errs = packer.MultiErrorAppend(
errs, errors.New("unrecognized network device type"))
}
if _, ok := diskInterface[b.config.DiskInterface]; !ok {
errs = packer.MultiErrorAppend(
errs, errors.New("unrecognized disk interface type"))
}
if _, ok := diskCache[b.config.DiskCache]; !ok {
errs = packer.MultiErrorAppend(
errs, errors.New("unrecognized disk cache type"))
}
if _, ok := diskDiscard[b.config.DiskDiscard]; !ok {
errs = packer.MultiErrorAppend(
errs, errors.New("unrecognized disk discard type"))
}
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if _, ok := diskDZeroes[b.config.DetectZeroes]; !ok {
errs = packer.MultiErrorAppend(
errs, errors.New("unrecognized disk detect zeroes setting"))
}
if !b.config.PackerForce {
if _, err := os.Stat(b.config.OutputDir); err == nil {
errs = packer.MultiErrorAppend(
errs,
fmt.Errorf("Output directory '%s' already exists. It must not exist.", b.config.OutputDir))
}
}
if b.config.SSHHostPortMin > b.config.SSHHostPortMax {
errs = packer.MultiErrorAppend(
errs, errors.New("ssh_host_port_min must be less than ssh_host_port_max"))
}
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if b.config.SSHHostPortMin < 0 {
errs = packer.MultiErrorAppend(
errs, errors.New("ssh_host_port_min must be positive"))
}
if b.config.VNCPortMin > b.config.VNCPortMax {
errs = packer.MultiErrorAppend(
errs, fmt.Errorf("vnc_port_min must be less than vnc_port_max"))
}
if b.config.VNCUsePassword && b.config.QMPSocketPath == "" {
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socketName := fmt.Sprintf("%s.monitor", b.config.VMName)
b.config.QMPSocketPath = filepath.Join(b.config.OutputDir, socketName)
}
if b.config.QemuArgs == nil {
b.config.QemuArgs = make([][]string, 0)
}
if errs != nil && len(errs.Errors) > 0 {
return nil, warnings, errs
}
return nil, warnings, nil
}
func (b *Builder) Run(ctx context.Context, ui packer.Ui, hook packer.Hook) (packer.Artifact, error) {
// Create the driver that we'll use to communicate with Qemu
driver, err := b.newDriver(b.config.QemuBinary)
if err != nil {
return nil, fmt.Errorf("Failed creating Qemu driver: %s", err)
}
steprun := &stepRun{}
if !b.config.DiskImage {
steprun.BootDrive = "once=d"
steprun.Message = "Starting VM, booting from CD-ROM"
} else {
steprun.BootDrive = "c"
steprun.Message = "Starting VM, booting disk image"
}
steps := []multistep.Step{}
if !b.config.ISOSkipCache {
steps = append(steps, &common.StepDownload{
Checksum: b.config.ISOChecksum,
ChecksumType: b.config.ISOChecksumType,
Description: "ISO",
Extension: b.config.TargetExtension,
ResultKey: "iso_path",
TargetPath: b.config.TargetPath,
Url: b.config.ISOUrls,
},
)
} else {
steps = append(steps, &stepSetISO{
ResultKey: "iso_path",
Url: b.config.ISOUrls,
},
)
}
steps = append(steps, new(stepPrepareOutputDir),
&common.StepCreateFloppy{
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Files: b.config.FloppyConfig.FloppyFiles,
Directories: b.config.FloppyConfig.FloppyDirectories,
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Label: b.config.FloppyConfig.FloppyLabel,
},
new(stepCreateDisk),
new(stepCopyDisk),
new(stepResizeDisk),
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new(stepHTTPIPDiscover),
&common.StepHTTPServer{
HTTPDir: b.config.HTTPDir,
HTTPPortMin: b.config.HTTPPortMin,
HTTPPortMax: b.config.HTTPPortMax,
},
)
if b.config.Comm.Type != "none" {
steps = append(steps,
new(stepForwardSSH),
)
}
steps = append(steps,
new(stepConfigureVNC),
steprun,
&stepConfigureQMP{
VNCUsePassword: b.config.VNCUsePassword,
QMPSocketPath: b.config.QMPSocketPath,
},
&stepTypeBootCommand{},
)
if b.config.Comm.Type != "none" {
steps = append(steps,
&communicator.StepConnect{
Config: &b.config.Comm,
Host: commHost(b.config.Comm.SSHHost),
SSHConfig: b.config.Comm.SSHConfigFunc(),
SSHPort: commPort,
WinRMPort: commPort,
},
)
}
steps = append(steps,
new(common.StepProvision),
)
steps = append(steps,
&common.StepCleanupTempKeys{
Comm: &b.config.Comm,
},
)
steps = append(steps,
new(stepShutdown),
)
steps = append(steps,
new(stepConvertDisk),
)
// Setup the state bag
state := new(multistep.BasicStateBag)
state.Put("config", &b.config)
state.Put("debug", b.config.PackerDebug)
state.Put("driver", driver)
state.Put("hook", hook)
state.Put("ui", ui)
// Run
b.runner = common.NewRunnerWithPauseFn(steps, b.config.PackerConfig, ui, state)
b.runner.Run(ctx, state)
// If there was an error, return that
if rawErr, ok := state.GetOk("error"); ok {
return nil, rawErr.(error)
}
// If we were interrupted or cancelled, then just exit.
if _, ok := state.GetOk(multistep.StateCancelled); ok {
return nil, errors.New("Build was cancelled.")
}
if _, ok := state.GetOk(multistep.StateHalted); ok {
return nil, errors.New("Build was halted.")
}
// Compile the artifact list
files := make([]string, 0, 5)
visit := func(path string, info os.FileInfo, err error) error {
if err != nil {
return err
}
if !info.IsDir() {
files = append(files, path)
}
return nil
}
if err := filepath.Walk(b.config.OutputDir, visit); err != nil {
return nil, err
}
artifact := &Artifact{
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dir: b.config.OutputDir,
f: files,
state: make(map[string]interface{}),
}
artifact.state["diskName"] = b.config.VMName
diskpaths, ok := state.Get("qemu_disk_paths").([]string)
if ok {
artifact.state["diskPaths"] = diskpaths
}
artifact.state["diskType"] = b.config.Format
artifact.state["diskSize"] = b.config.DiskSize
artifact.state["domainType"] = b.config.Accelerator
return artifact, nil
}
func (b *Builder) newDriver(qemuBinary string) (Driver, error) {
qemuPath, err := exec.LookPath(qemuBinary)
if err != nil {
return nil, err
}
qemuImgPath, err := exec.LookPath("qemu-img")
if err != nil {
return nil, err
}
log.Printf("Qemu path: %s, Qemu Image page: %s", qemuPath, qemuImgPath)
driver := &QemuDriver{
QemuPath: qemuPath,
QemuImgPath: qemuImgPath,
}
if err := driver.Verify(); err != nil {
return nil, err
}
return driver, nil
}