cloudinit/initialize/config.go

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package initialize
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import (
"errors"
"fmt"
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"log"
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"path"
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"github.com/coreos/coreos-cloudinit/third_party/launchpad.net/goyaml"
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"github.com/coreos/coreos-cloudinit/system"
)
// CloudConfigFile represents a CoreOS specific configuration option that can generate
// an associated system.File to be written to disk
type CloudConfigFile interface {
// File should either return (*system.File, error), or (nil, nil) if nothing
// needs to be done for this configuration option.
File(root string) (*system.File, error)
}
// CloudConfigUnit represents a CoreOS specific configuration option that can generate
// an associated system.Unit to be created/enabled appropriately
type CloudConfigUnit interface {
// Unit should either return (*system.Unit, error), or (nil, nil) if nothing
// needs to be done for this configuration option.
Unit(root string) (*system.Unit, error)
}
// CloudConfig encapsulates the entire cloud-config configuration file and maps directly to YAML
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type CloudConfig struct {
SSHAuthorizedKeys []string `yaml:"ssh_authorized_keys"`
Coreos struct {
Etcd EtcdEnvironment
Fleet FleetEnvironment
OEM OEMRelease
Update UpdateConfig
Units []system.Unit
}
WriteFiles []system.File `yaml:"write_files"`
Hostname string
Users []system.User
ManageEtcHosts EtcHosts `yaml:"manage_etc_hosts"`
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}
type warner func(format string, v ...interface{})
// warnOnUnrecognizedKeys parses the contents of a cloud-config file and calls
// warn(msg, key) for every unrecognized key (i.e. those not present in CloudConfig)
func warnOnUnrecognizedKeys(contents string, warn warner) {
// Generate a map of all understood cloud config options
var cc map[string]interface{}
b, _ := goyaml.Marshal(&CloudConfig{})
goyaml.Unmarshal(b, &cc)
// Now unmarshal the entire provided contents
var c map[string]interface{}
goyaml.Unmarshal([]byte(contents), &c)
// Check that every key in the contents exists in the cloud config
for k, _ := range c {
if _, ok := cc[k]; !ok {
warn("Warning: unrecognized key %q in provided cloud config - ignoring section", k)
}
}
// Finally, check for unrecognized coreos options, if any are set
coreos, ok := c["coreos"]
if !ok {
return
}
set := coreos.(map[interface{}]interface{})
known := cc["coreos"].(map[interface{}]interface{})
for k, _ := range set {
key := k.(string)
if _, ok := known[key]; !ok {
warn("Warning: unrecognized key %q in coreos section of provided cloud config - ignoring", key)
}
}
}
// NewCloudConfig instantiates a new CloudConfig from the given contents (a
// string of YAML), returning any error encountered. It will ignore unknown
// fields but log encountering them.
func NewCloudConfig(contents string) (*CloudConfig, error) {
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var cfg CloudConfig
err := goyaml.Unmarshal([]byte(contents), &cfg)
if err != nil {
return &cfg, err
}
warnOnUnrecognizedKeys(contents, log.Printf)
return &cfg, nil
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}
func (cc CloudConfig) String() string {
bytes, err := goyaml.Marshal(cc)
if err != nil {
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return ""
}
stringified := string(bytes)
stringified = fmt.Sprintf("#cloud-config\n%s", stringified)
return stringified
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}
// Apply renders a CloudConfig to an Environment. This can involve things like
// configuring the hostname, adding new users, writing various configuration
// files to disk, and manipulating systemd services.
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func Apply(cfg CloudConfig, env *Environment) error {
if cfg.Hostname != "" {
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if err := system.SetHostname(cfg.Hostname); err != nil {
return err
}
log.Printf("Set hostname to %s", cfg.Hostname)
}
for _, user := range cfg.Users {
if user.Name == "" {
log.Printf("User object has no 'name' field, skipping")
continue
}
if system.UserExists(&user) {
log.Printf("User '%s' exists, ignoring creation-time fields", user.Name)
if user.PasswordHash != "" {
log.Printf("Setting '%s' user's password", user.Name)
if err := system.SetUserPassword(user.Name, user.PasswordHash); err != nil {
log.Printf("Failed setting '%s' user's password: %v", user.Name, err)
return err
}
}
} else {
log.Printf("Creating user '%s'", user.Name)
if err := system.CreateUser(&user); err != nil {
log.Printf("Failed creating user '%s': %v", user.Name, err)
return err
}
}
if len(user.SSHAuthorizedKeys) > 0 {
log.Printf("Authorizing %d SSH keys for user '%s'", len(user.SSHAuthorizedKeys), user.Name)
if err := system.AuthorizeSSHKeys(user.Name, env.SSHKeyName(), user.SSHAuthorizedKeys); err != nil {
return err
}
}
if user.SSHImportGithubUser != "" {
log.Printf("Authorizing github user %s SSH keys for CoreOS user '%s'", user.SSHImportGithubUser, user.Name)
if err := SSHImportGithubUser(user.Name, user.SSHImportGithubUser); err != nil {
return err
}
}
if user.SSHImportURL != "" {
log.Printf("Authorizing SSH keys for CoreOS user '%s' from '%s'", user.Name, user.SSHImportURL)
if err := SSHImportKeysFromURL(user.Name, user.SSHImportURL); err != nil {
return err
}
}
}
if len(cfg.SSHAuthorizedKeys) > 0 {
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err := system.AuthorizeSSHKeys("core", env.SSHKeyName(), cfg.SSHAuthorizedKeys)
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if err == nil {
log.Printf("Authorized SSH keys for core user")
} else {
return err
}
}
for _, ccf := range []CloudConfigFile{cfg.Coreos.OEM, cfg.Coreos.Update, cfg.ManageEtcHosts} {
f, err := ccf.File(env.Root())
if err != nil {
return err
}
if f != nil {
cfg.WriteFiles = append(cfg.WriteFiles, *f)
}
}
for _, ccu := range []CloudConfigUnit{cfg.Coreos.Etcd, cfg.Coreos.Fleet, cfg.Coreos.Update} {
u, err := ccu.Unit(env.Root())
if err != nil {
return err
}
if u != nil {
cfg.Coreos.Units = append(cfg.Coreos.Units, *u)
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}
}
for _, file := range cfg.WriteFiles {
file.Path = path.Join(env.Root(), file.Path)
if err := system.WriteFile(&file); err != nil {
return err
}
log.Printf("Wrote file %s to filesystem", file.Path)
}
commands := make(map[string]string, 0)
reload := false
for _, unit := range cfg.Coreos.Units {
dst := system.UnitDestination(&unit, env.Root())
if unit.Content != "" {
log.Printf("Writing unit %s to filesystem at path %s", unit.Name, dst)
if err := system.PlaceUnit(&unit, dst); err != nil {
return err
}
log.Printf("Placed unit %s at %s", unit.Name, dst)
reload = true
}
if unit.Mask {
log.Printf("Masking unit file %s", unit.Name)
if err := system.MaskUnit(unit.Name, env.Root()); err != nil {
return err
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}
}
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if unit.Enable {
if unit.Group() != "network" {
log.Printf("Enabling unit file %s", dst)
if err := system.EnableUnitFile(dst, unit.Runtime); err != nil {
return err
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}
log.Printf("Enabled unit %s", unit.Name)
} else {
log.Printf("Skipping enable for network-like unit %s", unit.Name)
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}
}
if unit.Group() == "network" {
commands["systemd-networkd.service"] = "restart"
} else if unit.Command != "" {
commands[unit.Name] = unit.Command
}
}
if reload {
if err := system.DaemonReload(); err != nil {
return errors.New(fmt.Sprintf("failed systemd daemon-reload: %v", err))
}
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}
for unit, command := range commands {
log.Printf("Calling unit command '%s %s'", command, unit)
res, err := system.RunUnitCommand(command, unit)
if err != nil {
return err
}
log.Printf("Result of '%s %s': %s", command, unit, res)
}
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return nil
}