packer-cn/packer-plugin-sdk/rpc/communicator.go

348 lines
7.6 KiB
Go
Raw Normal View History

2013-05-12 17:47:55 -04:00
package rpc
import (
"context"
"encoding/gob"
2013-05-12 17:47:55 -04:00
"io"
"log"
"net/rpc"
"os"
"sync"
packersdk "github.com/hashicorp/packer/packer-plugin-sdk/packer"
2013-05-12 17:47:55 -04:00
)
// An implementation of packersdk.Communicator where the communicator is actually
2013-05-12 17:47:55 -04:00
// executed over an RPC connection.
type communicator struct {
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 } ```
2019-12-17 05:25:56 -05:00
commonClient
2013-05-12 17:47:55 -04:00
}
// CommunicatorServer wraps a packersdk.Communicator implementation and makes
2013-05-12 17:47:55 -04:00
// it exportable as part of a Golang RPC server.
type CommunicatorServer struct {
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 } ```
2019-12-17 05:25:56 -05:00
commonServer
c packersdk.Communicator
2013-05-12 17:47:55 -04:00
}
type CommandFinished struct {
ExitStatus int
}
type CommunicatorStartArgs struct {
2013-12-10 14:43:02 -05:00
Command string
StdinStreamId uint32
StdoutStreamId uint32
StderrStreamId uint32
ResponseStreamId uint32
2013-05-12 17:47:55 -04:00
}
type CommunicatorDownloadArgs struct {
2013-12-10 14:43:02 -05:00
Path string
WriterStreamId uint32
}
2013-05-12 19:48:46 -04:00
type CommunicatorUploadArgs struct {
2013-12-10 14:43:02 -05:00
Path string
ReaderStreamId uint32
FileInfo *fileInfo
2013-05-12 19:48:46 -04:00
}
2013-08-23 22:18:15 -04:00
type CommunicatorUploadDirArgs struct {
Dst string
Src string
Exclude []string
}
type CommunicatorDownloadDirArgs struct {
Dst string
Src string
Exclude []string
}
2013-05-12 17:47:55 -04:00
func Communicator(client *rpc.Client) *communicator {
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 } ```
2019-12-17 05:25:56 -05:00
return &communicator{
commonClient: commonClient{
client: client,
endpoint: DefaultCommunicatorEndpoint,
},
}
2013-05-12 17:47:55 -04:00
}
func (c *communicator) Start(ctx context.Context, cmd *packersdk.RemoteCmd) (err error) {
var args CommunicatorStartArgs
args.Command = cmd.Command
2013-05-12 17:47:55 -04:00
var wg sync.WaitGroup
if cmd.Stdin != nil {
2013-12-10 14:43:02 -05:00
args.StdinStreamId = c.mux.NextId()
go func() {
serveSingleCopy("stdin", c.mux, args.StdinStreamId, nil, cmd.Stdin)
}()
2013-05-12 17:47:55 -04:00
}
if cmd.Stdout != nil {
wg.Add(1)
2013-12-10 14:43:02 -05:00
args.StdoutStreamId = c.mux.NextId()
go func() {
defer wg.Done()
serveSingleCopy("stdout", c.mux, args.StdoutStreamId, cmd.Stdout, nil)
}()
}
if cmd.Stderr != nil {
wg.Add(1)
2013-12-10 14:43:02 -05:00
args.StderrStreamId = c.mux.NextId()
go func() {
defer wg.Done()
serveSingleCopy("stderr", c.mux, args.StderrStreamId, cmd.Stderr, nil)
}()
2013-05-12 17:47:55 -04:00
}
2013-12-10 14:43:02 -05:00
responseStreamId := c.mux.NextId()
args.ResponseStreamId = responseStreamId
go func() {
2013-12-10 14:43:02 -05:00
conn, err := c.mux.Accept(responseStreamId)
2017-07-05 15:27:59 -04:00
wg.Wait()
if err != nil {
2013-12-10 14:43:02 -05:00
log.Printf("[ERR] Error accepting response stream %d: %s",
responseStreamId, err)
cmd.SetExited(123)
return
}
defer conn.Close()
var finished CommandFinished
2013-12-10 14:43:02 -05:00
decoder := gob.NewDecoder(conn)
if err := decoder.Decode(&finished); err != nil {
2013-12-10 14:43:02 -05:00
log.Printf("[ERR] Error decoding response stream %d: %s",
responseStreamId, err)
cmd.SetExited(123)
return
}
log.Printf("[INFO] RPC client: Communicator ended with: %d", finished.ExitStatus)
cmd.SetExited(finished.ExitStatus)
}()
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 } ```
2019-12-17 05:25:56 -05:00
err = c.client.Call(c.endpoint+".Start", &args, new(interface{}))
2013-05-12 17:47:55 -04:00
return
}
func (c *communicator) Upload(path string, r io.Reader, fi *os.FileInfo) (err error) {
2013-05-12 19:48:46 -04:00
// Pipe the reader through to the connection
2013-12-10 14:43:02 -05:00
streamId := c.mux.NextId()
go serveSingleCopy("uploadData", c.mux, streamId, nil, r)
2013-05-12 19:48:46 -04:00
args := CommunicatorUploadArgs{
2013-12-10 14:43:02 -05:00
Path: path,
ReaderStreamId: streamId,
2013-05-12 19:48:46 -04:00
}
if fi != nil {
args.FileInfo = NewFileInfo(*fi)
}
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 } ```
2019-12-17 05:25:56 -05:00
err = c.client.Call(c.endpoint+".Upload", &args, new(interface{}))
return
}
func (c *communicator) UploadDir(dst string, src string, exclude []string) error {
2013-08-23 22:18:15 -04:00
args := &CommunicatorUploadDirArgs{
Dst: dst,
Src: src,
Exclude: exclude,
}
var reply 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 } ```
2019-12-17 05:25:56 -05:00
err := c.client.Call(c.endpoint+".UploadDir", args, &reply)
2013-08-23 22:18:15 -04:00
if err == nil {
err = reply
}
return err
}
func (c *communicator) DownloadDir(src string, dst string, exclude []string) error {
args := &CommunicatorDownloadDirArgs{
Dst: dst,
Src: src,
Exclude: exclude,
}
var reply 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 } ```
2019-12-17 05:25:56 -05:00
err := c.client.Call(c.endpoint+".DownloadDir", args, &reply)
if err == nil {
err = reply
}
return err
}
func (c *communicator) Download(path string, w io.Writer) (err error) {
// Serve a single connection and a single copy
2013-12-10 14:43:02 -05:00
streamId := c.mux.NextId()
waitServer := make(chan struct{})
go func() {
serveSingleCopy("downloadWriter", c.mux, streamId, w, nil)
close(waitServer)
}()
args := CommunicatorDownloadArgs{
2013-12-10 14:43:02 -05:00
Path: path,
WriterStreamId: streamId,
}
// Start sending data to the RPC server
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 } ```
2019-12-17 05:25:56 -05:00
err = c.client.Call(c.endpoint+".Download", &args, new(interface{}))
// Wait for the RPC server to finish receiving the data before we return
<-waitServer
return
}
2013-12-11 14:19:36 -05:00
func (c *CommunicatorServer) Start(args *CommunicatorStartArgs, reply *interface{}) error {
ctx := context.TODO()
// Build the RemoteCmd on this side so that it all pipes over
// to the remote side.
var cmd packersdk.RemoteCmd
cmd.Command = args.Command
// Create a channel to signal we're done so that we can close
// our stdin/stdout/stderr streams
2013-12-10 14:43:02 -05:00
toClose := make([]io.Closer, 0)
doneCh := make(chan struct{})
go func() {
<-doneCh
for _, conn := range toClose {
defer conn.Close()
}
}()
if args.StdinStreamId > 0 {
2013-12-10 14:43:02 -05:00
conn, err := c.mux.Dial(args.StdinStreamId)
if err != nil {
close(doneCh)
return NewBasicError(err)
}
2013-12-10 14:43:02 -05:00
toClose = append(toClose, conn)
cmd.Stdin = conn
2013-05-12 17:47:55 -04:00
}
if args.StdoutStreamId > 0 {
2013-12-10 14:43:02 -05:00
conn, err := c.mux.Dial(args.StdoutStreamId)
if err != nil {
close(doneCh)
return NewBasicError(err)
}
2013-12-10 14:43:02 -05:00
toClose = append(toClose, conn)
cmd.Stdout = conn
2013-05-12 17:47:55 -04:00
}
if args.StderrStreamId > 0 {
2013-12-10 14:43:02 -05:00
conn, err := c.mux.Dial(args.StderrStreamId)
if err != nil {
close(doneCh)
return NewBasicError(err)
}
2013-12-10 14:43:02 -05:00
toClose = append(toClose, conn)
cmd.Stderr = conn
2013-05-12 17:47:55 -04:00
}
// Connect to the response address so we can write our result to it
// when ready.
2013-12-10 14:43:02 -05:00
responseC, err := c.mux.Dial(args.ResponseStreamId)
if err != nil {
close(doneCh)
return NewBasicError(err)
}
responseWriter := gob.NewEncoder(responseC)
// Start the actual command
err = c.c.Start(ctx, &cmd)
if err != nil {
close(doneCh)
return NewBasicError(err)
}
// Start a goroutine to spin and wait for the process to actual
// exit. When it does, report it back to caller...
go func() {
defer close(doneCh)
defer responseC.Close()
2013-07-29 15:12:42 -04:00
cmd.Wait()
log.Printf("[INFO] RPC endpoint: Communicator ended with: %d", cmd.ExitStatus())
responseWriter.Encode(&CommandFinished{cmd.ExitStatus()})
}()
return nil
2013-05-12 17:47:55 -04:00
}
2013-05-12 19:48:46 -04:00
func (c *CommunicatorServer) Upload(args *CommunicatorUploadArgs, reply *interface{}) (err error) {
2013-12-10 14:43:02 -05:00
readerC, err := c.mux.Dial(args.ReaderStreamId)
2013-05-12 19:48:46 -04:00
if err != nil {
return
}
defer readerC.Close()
var fi *os.FileInfo
if args.FileInfo != nil {
fi = new(os.FileInfo)
*fi = *args.FileInfo
}
err = c.c.Upload(args.Path, readerC, fi)
2013-05-12 19:48:46 -04:00
return
}
2013-08-23 22:18:15 -04:00
func (c *CommunicatorServer) UploadDir(args *CommunicatorUploadDirArgs, reply *error) error {
return c.c.UploadDir(args.Dst, args.Src, args.Exclude)
}
func (c *CommunicatorServer) DownloadDir(args *CommunicatorUploadDirArgs, reply *error) error {
return c.c.DownloadDir(args.Src, args.Dst, args.Exclude)
}
func (c *CommunicatorServer) Download(args *CommunicatorDownloadArgs, reply *interface{}) (err error) {
2013-12-10 14:43:02 -05:00
writerC, err := c.mux.Dial(args.WriterStreamId)
if err != nil {
return
}
defer writerC.Close()
err = c.c.Download(args.Path, writerC)
return
}
2014-09-02 17:23:06 -04:00
func serveSingleCopy(name string, mux *muxBroker, id uint32, dst io.Writer, src io.Reader) {
2013-12-10 14:43:02 -05:00
conn, err := mux.Accept(id)
2013-05-12 17:47:55 -04:00
if err != nil {
log.Printf("[ERR] '%s' accept error: %s", name, err)
2013-05-12 17:47:55 -04:00
return
}
// Be sure to close the connection after we're done copying so
// that an EOF will successfully be sent to the remote side
defer conn.Close()
2013-05-12 17:47:55 -04:00
// The connection is the destination/source that is nil
if dst == nil {
dst = conn
} else {
src = conn
}
written, err := io.Copy(dst, src)
log.Printf("[INFO] %d bytes written for '%s'", written, name)
2013-05-12 17:47:55 -04:00
if err != nil {
log.Printf("[ERR] '%s' copy error: %s", name, err)
2013-05-12 17:47:55 -04:00
}
}