automation/state.go - maas - Gitiles

 package main

 import (
 	"bytes"
 	"encoding/json"
 	"fmt"
 	"log"
 	"net/http"
 	"net/url"
 	"os/exec"
 	"regexp"
 	"strconv"
 	"strings"
 	"time"

 	maas "github.com/juju/gomaasapi"
 )

 // Action how to get from there to here
 type Action func(*maas.MAASObject, MaasNode, ProcessingOptions) error

 // Transition the map from where i want to be from where i might be
 type Transition struct {
 	Target  string
 	Current string
 	Using   Action
 }

 type Power struct {
 	Name          string `json:"name"`
 	MacAddress    string `json:"mac_address"`
 	PowerPassword string `json:"power_password"`
 	PowerAddress  string `json:"power_address"`
 }

 // ProcessingOptions used to determine on what hosts to operate
 type ProcessingOptions struct {
 	Filter struct {
 		Zones struct {
 			Include []string
 			Exclude []string
 		}
 		Hosts struct {
 			Include []string
 			Exclude []string
 		}
 	}
 	Mappings        map[string]interface{}
 	Verbose         bool
 	Preview         bool
 	AlwaysRename    bool
 	ProvTracker     Tracker
 	ProvisionURL    string
 	ProvisionTTL    time.Duration
 	PowerHelper     string
 	PowerHelperUser string
 	PowerHelperHost string
 }

 // Transitions the actual map
 //
 // Currently this is a hand compiled / optimized "next step" table. This should
 // really be generated from the state machine chart input. Once this has been
 // accomplished you should be able to determine the action to take given your
 // target state and your current state.
 var Transitions = map[string]map[string][]Action{
 	"Deployed": {
 		"New":                 []Action{Reset, Commission},
 		"Deployed":            []Action{Provision, Done},
 		"Ready":               []Action{Reset, Aquire},
 		"Allocated":           []Action{Reset, Deploy},
 		"Retired":             []Action{Reset, AdminState},
 		"Reserved":            []Action{Reset, AdminState},
 		"Releasing":           []Action{Reset, Wait},
 		"DiskErasing":         []Action{Reset, Wait},
 		"Deploying":           []Action{Reset, Wait},
 		"Commissioning":       []Action{Reset, Wait},
 		"Missing":             []Action{Reset, Fail},
 		"FailedReleasing":     []Action{Reset, Fail},
 		"FailedDiskErasing":   []Action{Reset, Fail},
 		"FailedDeployment":    []Action{Reset, Fail},
 		"Broken":              []Action{Reset, Fail},
 		"FailedCommissioning": []Action{Reset, Fail},
 	},
 }

 const (
 	// defaultStateMachine Would be nice to drive from a graph language
 	defaultStateMachine string = `
 	(New)->(Commissioning)
         (Commissioning)->(FailedCommissioning)
         (FailedCommissioning)->(New)
         (Commissioning)->(Ready)
         (Ready)->(Deploying)
         (Ready)->(Allocated)
         (Allocated)->(Deploying)
         (Deploying)->(Deployed)
         (Deploying)->(FailedDeployment)
         (FailedDeployment)->(Broken)
         (Deployed)->(Releasing)
         (Releasing)->(FailedReleasing)
         (FailedReleasing)->(Broken)
         (Releasing)->(DiskErasing)
         (DiskErasing)->(FailedEraseDisk)
         (FailedEraseDisk)->(Broken)
         (Releasing)->(Ready)
         (DiskErasing)->(Ready)
         (Broken)->(Ready)
         (Deployed)->(Provisioning)
 	(Provisioning)->|a|
 	|a|->(Execute Script)->|b|
 	|a|->(HTTP PUT)
 	(HTTP PUT)->(HTTP GET)
 	(HTTP GET)->(HTTP GET)
 	(HTTP GET)->|b|
 	|b|->(Provisioned)
 	|b|->(ProvisionError)
         (ProvisionError)->(Provisioning)`
 )

 // updateName - changes the name of the MAAS node based on the configuration file
 func updateNodeName(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
 	macs := node.MACs()

 	// Get current node name and strip off domain name
 	current := node.Hostname()
 	if i := strings.IndexRune(current, '.'); i != -1 {
 		current = current[:i]
 	}
 	for _, mac := range macs {
 		if entry, ok := options.Mappings[mac]; ok {
 			if name, ok := entry.(map[string]interface{})["hostname"]; ok && current != name.(string) {
 				nodesObj := client.GetSubObject("nodes")
 				nodeObj := nodesObj.GetSubObject(node.ID())
 				log.Printf("RENAME '%s' to '%s'\n", node.Hostname(), name.(string))

 				if !options.Preview {
 					nodeObj.Update(url.Values{"hostname": []string{name.(string)}})
 				}
 			}
 		}
 	}
 	return nil
 }

 // Reset we are at the target state, nothing to do
 var Reset = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
 	if options.Verbose {
 		log.Printf("RESET: %s", node.Hostname())
 	}

 	if options.AlwaysRename {
 		updateNodeName(client, node, options)
 	}

 	options.ProvTracker.Clear(node.ID())

 	return nil
 }

 // Provision we are at the target state, nothing to do
 var Provision = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
 	if options.Verbose {
 		log.Printf("CHECK PROVISION: %s", node.Hostname())
 	}

 	if options.AlwaysRename {
 		updateNodeName(client, node, options)
 	}

 	record, err := options.ProvTracker.Get(node.ID())
 	if options.Verbose {
 		log.Printf("[info] Current state of node '%s' is '%s'", node.Hostname(), record.State.String())
 	}
 	if err != nil {
 		log.Printf("[warn] unable to retrieve provisioning state of node '%s' : %s", node.Hostname(), err)
 	} else if record.State == Unprovisioned || record.State == ProvisionError {
 		var err error = nil
 		var callout *url.URL
 		log.Printf("PROVISION '%s'", node.Hostname())
 		if len(options.ProvisionURL) > 0 {
 			if options.Verbose {
 				log.Printf("[info] Provisioning callout to '%s'", options.ProvisionURL)
 			}
 			callout, err = url.Parse(options.ProvisionURL)
 			if err != nil {
 				log.Printf("[error] Failed to parse provisioning URL '%s' : %s", options.ProvisionURL, err)
 			} else {
 				ips := node.IPs()
 				ip := ""
 				if len(ips) > 0 {
 					ip = ips[0]
 				}
 				macs := node.MACs()
 				mac := ""
 				if len(macs) > 0 {
 					mac = macs[0]
 				}
 				switch callout.Scheme {
 				// If the scheme is a file, then we will execute the refereced file
 				case "", "file":
 					if options.Verbose {
 						log.Printf("[info] executing local script file '%s'", callout.Path)
 					}
 					record.State = Provisioning
 					record.Timestamp = time.Now().Unix()
 					options.ProvTracker.Set(node.ID(), record)
 					err = exec.Command(callout.Path, node.ID(), node.Hostname(), ip, mac).Run()
 					if err != nil {
 						log.Printf("[error] Failed to execute '%s' : %s", options.ProvisionURL, err)
 					} else {
 						if options.Verbose {
 							log.Printf("[info] Marking node '%s' with ID '%s' as provisioned",
 								node.Hostname(), node.ID())
 						}
 						record.State = Provisioned
 						options.ProvTracker.Set(node.ID(), record)
 					}

 				default:
 					if options.Verbose {
 						log.Printf("[info] POSTing to '%s'", options.ProvisionURL)
 					}
 					data := map[string]string{
 						"id":   node.ID(),
 						"name": node.Hostname(),
 						"ip":   ip,
 						"mac":  mac,
 					}
 					hc := http.Client{}
 					var b []byte
 					b, err = json.Marshal(data)
 					if err != nil {
 						log.Printf("[error] Unable to marshal node data : %s", err)
 					} else {
 						var req *http.Request
 						var resp *http.Response
 						if options.Verbose {
 							log.Printf("[debug] POSTing data '%s'", string(b))
 						}
 						req, err = http.NewRequest("POST", options.ProvisionURL, bytes.NewReader(b))
 						if err != nil {
 							log.Printf("[error] Unable to construct POST request to provisioner : %s",
 								err)
 						} else {
 							req.Header.Add("Content-Type", "application/json")
 							resp, err = hc.Do(req)
 							if err != nil {
 								log.Printf("[error] Unable to process POST request : %s",
 									err)
 							} else {
 								defer resp.Body.Close()
 								if resp.StatusCode == http.StatusAccepted {
 									record.State = Provisioning
 								} else {
 									record.State = ProvisionError
 								}
 								record.Timestamp = time.Now().Unix()
 								options.ProvTracker.Set(node.ID(), record)
 							}
 						}
 					}
 				}
 			}
 		}

 		if err != nil {
 			if options.Verbose {
 				log.Printf("[warn] Not marking node '%s' with ID '%s' as provisioned, because of error '%s'",
 					node.Hostname(), node.ID(), err)
 				record.State = ProvisionError
 				options.ProvTracker.Set(node.ID(), record)
 			}
 		}
 	} else if record.State == Provisioning && time.Since(time.Unix(record.Timestamp, 0)) > options.ProvisionTTL {
 		log.Printf("[error] Provisioning of node '%s' has passed provisioning TTL of '%v'",
 			node.Hostname(), options.ProvisionTTL)
 		record.State = ProvisionError
 		options.ProvTracker.Set(node.ID(), record)
 	} else if record.State == Provisioning {
 		callout, err := url.Parse(options.ProvisionURL)
 		if err != nil {
 			log.Printf("[error] Unable to parse provisioning URL '%s' : %s", options.ProvisionURL, err)
 		} else if callout.Scheme != "file" {
 			var req *http.Request
 			var resp *http.Response
 			if options.Verbose {
 				log.Printf("[info] Fetching provisioning state for node '%s'", node.Hostname())
 			}
 			req, err = http.NewRequest("GET", options.ProvisionURL+"/"+node.ID(), nil)
 			if err != nil {
 				log.Printf("[error] Unable to construct GET request to provisioner : %s", err)
 			} else {
 				hc := http.Client{}
 				resp, err = hc.Do(req)
 				if err != nil {
 					log.Printf("[error] Failed to quest provision state for node '%s' : %s",
 						node.Hostname(), err)
 				} else {
 					defer resp.Body.Close()
 					switch resp.StatusCode {
 					case http.StatusOK: // provisioning completed or failed
 						decoder := json.NewDecoder(resp.Body)
 						var raw interface{}
 						err = decoder.Decode(&raw)
 						if err != nil {
 							log.Printf("[error] Unable to unmarshal response from provisioner for '%s': %s",
 								node.Hostname(), err)
 						}
 						status := raw.(map[string]interface{})
 						switch int(status["status"].(float64)) {
 						case 0, 1: // PENDING, RUNNING ... should never really get here
 							// noop, already in this state
 						case 2: // COMPLETE
 							if options.Verbose {
 								log.Printf("[info] Marking node '%s' with ID '%s' as provisioned",
 									node.Hostname(), node.ID())
 							}
 							record.State = Provisioned
 							options.ProvTracker.Set(node.ID(), record)
 						case 3: // FAILED
 							if options.Verbose {
 								log.Printf("[info] Marking node '%s' with ID '%s' as failed provisioning",
 									node.Hostname(), node.ID())
 							}
 							record.State = ProvisionError
 							options.ProvTracker.Set(node.ID(), record)
 						default:
 							log.Printf("[error] unknown status state for node '%s' : %d",
 								node.Hostname(), int(status["status"].(float64)))
 						}
 					case http.StatusAccepted: // in the provisioning state
 						// Noop, presumably alread in this state
 					default: // Consider anything else an erorr
 						log.Printf("[warn] Node '%s' with ID '%s' failed provisioning, will retry",
 							node.Hostname(), node.ID())
 						record.State = ProvisionError
 						options.ProvTracker.Set(node.ID(), record)
 					}
 				}
 			}
 		}
 	} else if options.Verbose {
 		log.Printf("[info] Not invoking provisioning for '%s', currned state is '%s'", node.Hostname(),
 			record.State.String())
 	}

 	return nil
 }

 // Done we are at the target state, nothing to do
 var Done = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
 	// As devices are normally in the "COMPLETED" state we don't want to
 	// log this fact unless we are in verbose mode. I suspect it would be
 	// nice to log it once when the device transitions from a non COMPLETE
 	// state to a complete state, but that would require keeping state.
 	if options.Verbose {
 		log.Printf("COMPLETE: %s", node.Hostname())
 	}

 	if options.AlwaysRename {
 		updateNodeName(client, node, options)
 	}

 	return nil
 }

 // Deploy cause a node to deploy
 var Deploy = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
 	log.Printf("DEPLOY: %s", node.Hostname())

 	if options.AlwaysRename {
 		updateNodeName(client, node, options)
 	}

 	if !options.Preview {
 		nodesObj := client.GetSubObject("nodes")
 		myNode := nodesObj.GetSubObject(node.ID())
 		// Start the node with the trusty distro. This should really be looked up or
 		// a parameter default
 		_, err := myNode.CallPost("start", url.Values{"distro_series": []string{"trusty"}})
 		if err != nil {
 			log.Printf("ERROR: DEPLOY '%s' : '%s'", node.Hostname(), err)
 			return err
 		}
 	}
 	return nil
 }

 // Aquire aquire a machine to a specific operator
 var Aquire = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
 	log.Printf("AQUIRE: %s", node.Hostname())
 	nodesObj := client.GetSubObject("nodes")

 	if options.AlwaysRename {
 		updateNodeName(client, node, options)
 	}

 	if !options.Preview {
 		// With a new version of MAAS we have to make sure the node is linked
 		// to the subnet vid DHCP before we move to the Aquire state. To do this
 		// We need to unlink the interface to the subnet and then relink it.
 		//
 		// Iterate through all the interfaces on the node, searching for ones
 		// that are valid and not DHCP and move them to DHCP
 		ifcsObj := client.GetSubObject("nodes").GetSubObject(node.ID()).GetSubObject("interfaces")
 		ifcsListObj, err := ifcsObj.CallGet("", url.Values{})
 		if err != nil {
 			return err
 		}

 		ifcsArray, err := ifcsListObj.GetArray()
 		if err != nil {
 			return err
 		}

 		for _, ifc := range ifcsArray {
 			ifcMap, err := ifc.GetMap()
 			if err != nil {
 				return err
 			}

 			// Iterate over the links assocated with the interface, looking for
 			// links with a subnect as well as a mode of "auto"
 			links, ok := ifcMap["links"]
 			if ok {
 				linkArray, err := links.GetArray()
 				if err != nil {
 					return err
 				}

 				for _, link := range linkArray {
 					linkMap, err := link.GetMap()
 					if err != nil {
 						return err
 					}
 					subnet, ok := linkMap["subnet"]
 					if ok {
 						subnetMap, err := subnet.GetMap()
 						if err != nil {
 							return err
 						}

 						val, err := linkMap["mode"].GetString()
 						if err != nil {
 							return err
 						}

 						if val == "auto" {
 							// Found one we like, so grab the subnet from the data and
 							// then relink this as DHCP
 							cidr, err := subnetMap["cidr"].GetString()
 							if err != nil {
 								return err
 							}

 							fifcID, err := ifcMap["id"].GetFloat64()
 							if err != nil {
 								return err
 							}
 							ifcID := strconv.Itoa(int(fifcID))

 							flID, err := linkMap["id"].GetFloat64()
 							if err != nil {
 								return err
 							}
 							lID := strconv.Itoa(int(flID))

 							ifcObj := ifcsObj.GetSubObject(ifcID)
 							_, err = ifcObj.CallPost("unlink_subnet", url.Values{"id": []string{lID}})
 							if err != nil {
 								return err
 							}
 							_, err = ifcObj.CallPost("link_subnet", url.Values{"mode": []string{"DHCP"}, "subnet": []string{cidr}})
 							if err != nil {
 								return err
 							}
 						}
 					}
 				}
 			}
 		}
 		_, err = nodesObj.CallPost("acquire",
 			url.Values{"name": []string{node.Hostname()}})
 		if err != nil {
 			log.Printf("ERROR: AQUIRE '%s' : '%s'", node.Hostname(), err)
 			return err
 		}
 	}
 	return nil
 }

 // Commission cause a node to be commissioned
 var Commission = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
 	updateNodeName(client, node, options)

 	// Need to understand the power state of the node. We only want to move to "Commissioning" if the node
 	// power is off. If the node power is not off, then turn it off.
 	state := node.PowerState()
 	switch state {
 	case "on":
 		// Attempt to turn the node off
 		log.Printf("POWER DOWN: %s", node.Hostname())
 		if !options.Preview {
 			//POST /api/1.0/nodes/{system_id}/ op=stop
 			nodesObj := client.GetSubObject("nodes")
 			nodeObj := nodesObj.GetSubObject(node.ID())
 			_, err := nodeObj.CallPost("stop", url.Values{"stop_mode": []string{"soft"}})
 			if err != nil {
 				log.Printf("ERROR: Commission '%s' : changing power start to off : '%s'", node.Hostname(), err)
 			}
 			return err
 		}
 		break
 	case "off":
 		// We are off so move to commissioning
 		log.Printf("COMISSION: %s", node.Hostname())
 		if !options.Preview {
 			nodesObj := client.GetSubObject("nodes")
 			nodeObj := nodesObj.GetSubObject(node.ID())

 			updateNodeName(client, node, options)

 			_, err := nodeObj.CallPost("commission", url.Values{})
 			if err != nil {
 				log.Printf("ERROR: Commission '%s' : '%s'", node.Hostname(), err)
 			}
 			return err
 		}
 		break
 	default:
 		// We are in a state from which we can't move forward.
 		log.Printf("[warn]: %s has invalid power state '%s'", node.Hostname(), state)

 		// If a power helper script is set, we have an unknown power state, and
 		// we have not power type then attempt to use the helper script to discover
 		// and set the power settings
 		if options.PowerHelper != "" && node.PowerType() == "" {
 			cmd := exec.Command(options.PowerHelper,
 				append([]string{options.PowerHelperUser, options.PowerHelperHost},
 					node.MACs()...)...)
 			stdout, err := cmd.Output()
 			if err != nil {
 				log.Printf("[error] Failed while executing power helper script '%s' : %s",
 					options.PowerHelper, err)
 				return err
 			}
 			power := Power{}
 			err = json.Unmarshal(stdout, &power)
 			if err != nil {
 				log.Printf("[error] Failed to parse output of power helper script '%s' : %s",
 					options.PowerHelper, err)
 				return err
 			}
 			switch power.Name {
 			case "amt":
 				params := map[string]string{
 					"mac_address":   power.MacAddress,
 					"power_pass":    power.PowerPassword,
 					"power_address": power.PowerAddress,
 				}
 				node.UpdatePowerParameters(power.Name, params)
 			default:
 				log.Printf("[warn] Unsupported power type discovered '%s'", power.Name)
 			}
 		}
 		break
 	}
 	return nil
 }

 // Wait a do nothing state, while work is being done
 var Wait = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
 	log.Printf("WAIT: %s", node.Hostname())
 	return nil
 }

 // Fail a state from which we cannot, currently, automatically recover
 var Fail = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
 	log.Printf("FAIL: %s", node.Hostname())
 	return nil
 }

 // AdminState an administrative state from which we should make no automatic transition
 var AdminState = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
 	log.Printf("ADMIN: %s", node.Hostname())
 	return nil
 }

 func findActions(target string, current string) ([]Action, error) {
 	targets, ok := Transitions[target]
 	if !ok {
 		log.Printf("[warn] unable to find transitions to target state '%s'", target)
 		return nil, fmt.Errorf("Could not find transition to target state '%s'", target)
 	}

 	actions, ok := targets[current]
 	if !ok {
 		log.Printf("[warn] unable to find transition from current state '%s' to target state '%s'",
 			current, target)
 		return nil, fmt.Errorf("Could not find transition from current state '%s' to target state '%s'",
 			current, target)
 	}

 	return actions, nil
 }

 // ProcessActions
 func ProcessActions(actions []Action, client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
 	var err error
 	for _, action := range actions {
 		if err = action(client, node, options); err != nil {
 			log.Printf("[error] Error while processing action for node '%s' : %s",
 				node.Hostname(), err)
 			break
 		}
 	}
 	return err
 }

 // ProcessNode something
 func ProcessNode(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
 	substatus, err := node.GetInteger("substatus")
 	if err != nil {
 		return err
 	}
 	actions, err := findActions("Deployed", MaasNodeStatus(substatus).String())
 	if err != nil {
 		return err
 	}

 	if options.Preview {
 		ProcessActions(actions, client, node, options)
 	} else {
 		go ProcessActions(actions, client, node, options)
 	}
 	return nil
 }

 func buildFilter(filter []string) ([]*regexp.Regexp, error) {

 	results := make([]*regexp.Regexp, len(filter))
 	for i, v := range filter {
 		r, err := regexp.Compile(v)
 		if err != nil {
 			return nil, err
 		}
 		results[i] = r
 	}
 	return results, nil
 }

 func matchedFilter(include []*regexp.Regexp, target string) bool {
 	for _, e := range include {
 		if e.MatchString(target) {
 			return true
 		}
 	}
 	return false
 }

 // ProcessAll something
 func ProcessAll(client *maas.MAASObject, nodes []MaasNode, options ProcessingOptions) []error {
 	errors := make([]error, len(nodes))
 	includeHosts, err := buildFilter(options.Filter.Hosts.Include)
 	if err != nil {
 		log.Fatalf("[error] invalid regular expression for include filter '%s' : %s", options.Filter.Hosts.Include, err)
 	}

 	includeZones, err := buildFilter(options.Filter.Zones.Include)
 	if err != nil {
 		log.Fatalf("[error] invalid regular expression for include filter '%v' : %s", options.Filter.Zones.Include, err)
 	}

 	for i, node := range nodes {
 		// For hostnames we always match on an empty filter
 		if len(includeHosts) >= 0 && matchedFilter(includeHosts, node.Hostname()) {

 			// For zones we don't match on an empty filter
 			if len(includeZones) >= 0 && matchedFilter(includeZones, node.Zone()) {
 				err := ProcessNode(client, node, options)
 				if err != nil {
 					errors[i] = err
 				} else {
 					errors[i] = nil
 				}
 			} else {
 				if options.Verbose {
 					log.Printf("[info] ignoring node '%s' as its zone '%s' didn't match include zone name filter '%v'",
 						node.Hostname(), node.Zone(), options.Filter.Zones.Include)
 				}
 			}
 		} else {
 			if options.Verbose {
 				log.Printf("[info] ignoring node '%s' as it didn't match include hostname filter '%v'",
 					node.Hostname(), options.Filter.Hosts.Include)
 			}
 		}
 	}
 	return errors
 }
	package main

	import (
	"bytes"
	"encoding/json"
	"fmt"
	"log"
	"net/http"
	"net/url"
	"os/exec"
	"regexp"
	"strconv"
	"strings"
	"time"

	maas "github.com/juju/gomaasapi"
	)

	// Action how to get from there to here
	type Action func(*maas.MAASObject, MaasNode, ProcessingOptions) error

	// Transition the map from where i want to be from where i might be
	type Transition struct {
	Target string
	Current string
	Using Action
	}

	type Power struct {
	Name string `json:"name"`
	MacAddress string `json:"mac_address"`
	PowerPassword string `json:"power_password"`
	PowerAddress string `json:"power_address"`
	}

	// ProcessingOptions used to determine on what hosts to operate
	type ProcessingOptions struct {
	Filter struct {
	Zones struct {
	Include []string
	Exclude []string
	}
	Hosts struct {
	Include []string
	Exclude []string
	}
	}
	Mappings map[string]interface{}
	Verbose bool
	Preview bool
	AlwaysRename bool
	ProvTracker Tracker
	ProvisionURL string
	ProvisionTTL time.Duration
	PowerHelper string
	PowerHelperUser string
	PowerHelperHost string
	}

	// Transitions the actual map
	//
	// Currently this is a hand compiled / optimized "next step" table. This should
	// really be generated from the state machine chart input. Once this has been
	// accomplished you should be able to determine the action to take given your
	// target state and your current state.
	var Transitions = map[string]map[string][]Action{
	"Deployed": {
	"New": []Action{Reset, Commission},
	"Deployed": []Action{Provision, Done},
	"Ready": []Action{Reset, Aquire},
	"Allocated": []Action{Reset, Deploy},
	"Retired": []Action{Reset, AdminState},
	"Reserved": []Action{Reset, AdminState},
	"Releasing": []Action{Reset, Wait},
	"DiskErasing": []Action{Reset, Wait},
	"Deploying": []Action{Reset, Wait},
	"Commissioning": []Action{Reset, Wait},
	"Missing": []Action{Reset, Fail},
	"FailedReleasing": []Action{Reset, Fail},
	"FailedDiskErasing": []Action{Reset, Fail},
	"FailedDeployment": []Action{Reset, Fail},
	"Broken": []Action{Reset, Fail},
	"FailedCommissioning": []Action{Reset, Fail},
	},
	}

	const (
	// defaultStateMachine Would be nice to drive from a graph language
	defaultStateMachine string = `
	(New)->(Commissioning)
	(Commissioning)->(FailedCommissioning)
	(FailedCommissioning)->(New)
	(Commissioning)->(Ready)
	(Ready)->(Deploying)
	(Ready)->(Allocated)
	(Allocated)->(Deploying)
	(Deploying)->(Deployed)
	(Deploying)->(FailedDeployment)
	(FailedDeployment)->(Broken)
	(Deployed)->(Releasing)
	(Releasing)->(FailedReleasing)
	(FailedReleasing)->(Broken)
	(Releasing)->(DiskErasing)
	(DiskErasing)->(FailedEraseDisk)
	(FailedEraseDisk)->(Broken)
	(Releasing)->(Ready)
	(DiskErasing)->(Ready)
	(Broken)->(Ready)
	(Deployed)->(Provisioning)
	(Provisioning)->\|a\|
	\|a\|->(Execute Script)->\|b\|
	\|a\|->(HTTP PUT)
	(HTTP PUT)->(HTTP GET)
	(HTTP GET)->(HTTP GET)
	(HTTP GET)->\|b\|
	\|b\|->(Provisioned)
	\|b\|->(ProvisionError)
	(ProvisionError)->(Provisioning)`
	)

	// updateName - changes the name of the MAAS node based on the configuration file
	func updateNodeName(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
	macs := node.MACs()

	// Get current node name and strip off domain name
	current := node.Hostname()
	if i := strings.IndexRune(current, '.'); i != -1 {
	current = current[:i]
	}
	for _, mac := range macs {
	if entry, ok := options.Mappings[mac]; ok {
	if name, ok := entry.(map[string]interface{})["hostname"]; ok && current != name.(string) {
	nodesObj := client.GetSubObject("nodes")
	nodeObj := nodesObj.GetSubObject(node.ID())
	log.Printf("RENAME '%s' to '%s'\n", node.Hostname(), name.(string))

	if !options.Preview {
	nodeObj.Update(url.Values{"hostname": []string{name.(string)}})
	}
	}
	}
	}
	return nil
	}

	// Reset we are at the target state, nothing to do
	var Reset = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
	if options.Verbose {
	log.Printf("RESET: %s", node.Hostname())
	}

	if options.AlwaysRename {
	updateNodeName(client, node, options)
	}

	options.ProvTracker.Clear(node.ID())

	return nil
	}

	// Provision we are at the target state, nothing to do
	var Provision = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
	if options.Verbose {
	log.Printf("CHECK PROVISION: %s", node.Hostname())
	}

	if options.AlwaysRename {
	updateNodeName(client, node, options)
	}

	record, err := options.ProvTracker.Get(node.ID())
	if options.Verbose {
	log.Printf("[info] Current state of node '%s' is '%s'", node.Hostname(), record.State.String())
	}
	if err != nil {
	log.Printf("[warn] unable to retrieve provisioning state of node '%s' : %s", node.Hostname(), err)
	} else if record.State == Unprovisioned \|\| record.State == ProvisionError {
	var err error = nil
	var callout *url.URL
	log.Printf("PROVISION '%s'", node.Hostname())
	if len(options.ProvisionURL) > 0 {
	if options.Verbose {
	log.Printf("[info] Provisioning callout to '%s'", options.ProvisionURL)
	}
	callout, err = url.Parse(options.ProvisionURL)
	if err != nil {
	log.Printf("[error] Failed to parse provisioning URL '%s' : %s", options.ProvisionURL, err)
	} else {
	ips := node.IPs()
	ip := ""
	if len(ips) > 0 {
	ip = ips[0]
	}
	macs := node.MACs()
	mac := ""
	if len(macs) > 0 {
	mac = macs[0]
	}
	switch callout.Scheme {
	// If the scheme is a file, then we will execute the refereced file
	case "", "file":
	if options.Verbose {
	log.Printf("[info] executing local script file '%s'", callout.Path)
	}
	record.State = Provisioning
	record.Timestamp = time.Now().Unix()
	options.ProvTracker.Set(node.ID(), record)
	err = exec.Command(callout.Path, node.ID(), node.Hostname(), ip, mac).Run()
	if err != nil {
	log.Printf("[error] Failed to execute '%s' : %s", options.ProvisionURL, err)
	} else {
	if options.Verbose {
	log.Printf("[info] Marking node '%s' with ID '%s' as provisioned",
	node.Hostname(), node.ID())
	}
	record.State = Provisioned
	options.ProvTracker.Set(node.ID(), record)
	}

	default:
	if options.Verbose {
	log.Printf("[info] POSTing to '%s'", options.ProvisionURL)
	}
	data := map[string]string{
	"id": node.ID(),
	"name": node.Hostname(),
	"ip": ip,
	"mac": mac,
	}
	hc := http.Client{}
	var b []byte
	b, err = json.Marshal(data)
	if err != nil {
	log.Printf("[error] Unable to marshal node data : %s", err)
	} else {
	var req *http.Request
	var resp *http.Response
	if options.Verbose {
	log.Printf("[debug] POSTing data '%s'", string(b))
	}
	req, err = http.NewRequest("POST", options.ProvisionURL, bytes.NewReader(b))
	if err != nil {
	log.Printf("[error] Unable to construct POST request to provisioner : %s",
	err)
	} else {
	req.Header.Add("Content-Type", "application/json")
	resp, err = hc.Do(req)
	if err != nil {
	log.Printf("[error] Unable to process POST request : %s",
	err)
	} else {
	defer resp.Body.Close()
	if resp.StatusCode == http.StatusAccepted {
	record.State = Provisioning
	} else {
	record.State = ProvisionError
	}
	record.Timestamp = time.Now().Unix()
	options.ProvTracker.Set(node.ID(), record)
	}
	}
	}
	}
	}
	}

	if err != nil {
	if options.Verbose {
	log.Printf("[warn] Not marking node '%s' with ID '%s' as provisioned, because of error '%s'",
	node.Hostname(), node.ID(), err)
	record.State = ProvisionError
	options.ProvTracker.Set(node.ID(), record)
	}
	}
	} else if record.State == Provisioning && time.Since(time.Unix(record.Timestamp, 0)) > options.ProvisionTTL {
	log.Printf("[error] Provisioning of node '%s' has passed provisioning TTL of '%v'",
	node.Hostname(), options.ProvisionTTL)
	record.State = ProvisionError
	options.ProvTracker.Set(node.ID(), record)
	} else if record.State == Provisioning {
	callout, err := url.Parse(options.ProvisionURL)
	if err != nil {
	log.Printf("[error] Unable to parse provisioning URL '%s' : %s", options.ProvisionURL, err)
	} else if callout.Scheme != "file" {
	var req *http.Request
	var resp *http.Response
	if options.Verbose {
	log.Printf("[info] Fetching provisioning state for node '%s'", node.Hostname())
	}
	req, err = http.NewRequest("GET", options.ProvisionURL+"/"+node.ID(), nil)
	if err != nil {
	log.Printf("[error] Unable to construct GET request to provisioner : %s", err)
	} else {
	hc := http.Client{}
	resp, err = hc.Do(req)
	if err != nil {
	log.Printf("[error] Failed to quest provision state for node '%s' : %s",
	node.Hostname(), err)
	} else {
	defer resp.Body.Close()
	switch resp.StatusCode {
	case http.StatusOK: // provisioning completed or failed
	decoder := json.NewDecoder(resp.Body)
	var raw interface{}
	err = decoder.Decode(&raw)
	if err != nil {
	log.Printf("[error] Unable to unmarshal response from provisioner for '%s': %s",
	node.Hostname(), err)
	}
	status := raw.(map[string]interface{})
	switch int(status["status"].(float64)) {
	case 0, 1: // PENDING, RUNNING ... should never really get here
	// noop, already in this state
	case 2: // COMPLETE
	if options.Verbose {
	log.Printf("[info] Marking node '%s' with ID '%s' as provisioned",
	node.Hostname(), node.ID())
	}
	record.State = Provisioned
	options.ProvTracker.Set(node.ID(), record)
	case 3: // FAILED
	if options.Verbose {
	log.Printf("[info] Marking node '%s' with ID '%s' as failed provisioning",
	node.Hostname(), node.ID())
	}
	record.State = ProvisionError
	options.ProvTracker.Set(node.ID(), record)
	default:
	log.Printf("[error] unknown status state for node '%s' : %d",
	node.Hostname(), int(status["status"].(float64)))
	}
	case http.StatusAccepted: // in the provisioning state
	// Noop, presumably alread in this state
	default: // Consider anything else an erorr
	log.Printf("[warn] Node '%s' with ID '%s' failed provisioning, will retry",
	node.Hostname(), node.ID())
	record.State = ProvisionError
	options.ProvTracker.Set(node.ID(), record)
	}
	}
	}
	}
	} else if options.Verbose {
	log.Printf("[info] Not invoking provisioning for '%s', currned state is '%s'", node.Hostname(),
	record.State.String())
	}

	return nil
	}

	// Done we are at the target state, nothing to do
	var Done = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
	// As devices are normally in the "COMPLETED" state we don't want to
	// log this fact unless we are in verbose mode. I suspect it would be
	// nice to log it once when the device transitions from a non COMPLETE
	// state to a complete state, but that would require keeping state.
	if options.Verbose {
	log.Printf("COMPLETE: %s", node.Hostname())
	}

	if options.AlwaysRename {
	updateNodeName(client, node, options)
	}

	return nil
	}

	// Deploy cause a node to deploy
	var Deploy = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
	log.Printf("DEPLOY: %s", node.Hostname())

	if options.AlwaysRename {
	updateNodeName(client, node, options)
	}

	if !options.Preview {
	nodesObj := client.GetSubObject("nodes")
	myNode := nodesObj.GetSubObject(node.ID())
	// Start the node with the trusty distro. This should really be looked up or
	// a parameter default
	_, err := myNode.CallPost("start", url.Values{"distro_series": []string{"trusty"}})
	if err != nil {
	log.Printf("ERROR: DEPLOY '%s' : '%s'", node.Hostname(), err)
	return err
	}
	}
	return nil
	}

	// Aquire aquire a machine to a specific operator
	var Aquire = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
	log.Printf("AQUIRE: %s", node.Hostname())
	nodesObj := client.GetSubObject("nodes")

	if options.AlwaysRename {
	updateNodeName(client, node, options)
	}

	if !options.Preview {
	// With a new version of MAAS we have to make sure the node is linked
	// to the subnet vid DHCP before we move to the Aquire state. To do this
	// We need to unlink the interface to the subnet and then relink it.
	//
	// Iterate through all the interfaces on the node, searching for ones
	// that are valid and not DHCP and move them to DHCP
	ifcsObj := client.GetSubObject("nodes").GetSubObject(node.ID()).GetSubObject("interfaces")
	ifcsListObj, err := ifcsObj.CallGet("", url.Values{})
	if err != nil {
	return err
	}

	ifcsArray, err := ifcsListObj.GetArray()
	if err != nil {
	return err
	}

	for _, ifc := range ifcsArray {
	ifcMap, err := ifc.GetMap()
	if err != nil {
	return err
	}

	// Iterate over the links assocated with the interface, looking for
	// links with a subnect as well as a mode of "auto"
	links, ok := ifcMap["links"]
	if ok {
	linkArray, err := links.GetArray()
	if err != nil {
	return err
	}

	for _, link := range linkArray {
	linkMap, err := link.GetMap()
	if err != nil {
	return err
	}
	subnet, ok := linkMap["subnet"]
	if ok {
	subnetMap, err := subnet.GetMap()
	if err != nil {
	return err
	}

	val, err := linkMap["mode"].GetString()
	if err != nil {
	return err
	}

	if val == "auto" {
	// Found one we like, so grab the subnet from the data and
	// then relink this as DHCP
	cidr, err := subnetMap["cidr"].GetString()
	if err != nil {
	return err
	}

	fifcID, err := ifcMap["id"].GetFloat64()
	if err != nil {
	return err
	}
	ifcID := strconv.Itoa(int(fifcID))

	flID, err := linkMap["id"].GetFloat64()
	if err != nil {
	return err
	}
	lID := strconv.Itoa(int(flID))

	ifcObj := ifcsObj.GetSubObject(ifcID)
	_, err = ifcObj.CallPost("unlink_subnet", url.Values{"id": []string{lID}})
	if err != nil {
	return err
	}
	_, err = ifcObj.CallPost("link_subnet", url.Values{"mode": []string{"DHCP"}, "subnet": []string{cidr}})
	if err != nil {
	return err
	}
	}
	}
	}
	}
	}
	_, err = nodesObj.CallPost("acquire",
	url.Values{"name": []string{node.Hostname()}})
	if err != nil {
	log.Printf("ERROR: AQUIRE '%s' : '%s'", node.Hostname(), err)
	return err
	}
	}
	return nil
	}

	// Commission cause a node to be commissioned
	var Commission = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
	updateNodeName(client, node, options)

	// Need to understand the power state of the node. We only want to move to "Commissioning" if the node
	// power is off. If the node power is not off, then turn it off.
	state := node.PowerState()
	switch state {
	case "on":
	// Attempt to turn the node off
	log.Printf("POWER DOWN: %s", node.Hostname())
	if !options.Preview {
	//POST /api/1.0/nodes/{system_id}/ op=stop
	nodesObj := client.GetSubObject("nodes")
	nodeObj := nodesObj.GetSubObject(node.ID())
	_, err := nodeObj.CallPost("stop", url.Values{"stop_mode": []string{"soft"}})
	if err != nil {
	log.Printf("ERROR: Commission '%s' : changing power start to off : '%s'", node.Hostname(), err)
	}
	return err
	}
	break
	case "off":
	// We are off so move to commissioning
	log.Printf("COMISSION: %s", node.Hostname())
	if !options.Preview {
	nodesObj := client.GetSubObject("nodes")
	nodeObj := nodesObj.GetSubObject(node.ID())

	updateNodeName(client, node, options)

	_, err := nodeObj.CallPost("commission", url.Values{})
	if err != nil {
	log.Printf("ERROR: Commission '%s' : '%s'", node.Hostname(), err)
	}
	return err
	}
	break
	default:
	// We are in a state from which we can't move forward.
	log.Printf("[warn]: %s has invalid power state '%s'", node.Hostname(), state)

	// If a power helper script is set, we have an unknown power state, and
	// we have not power type then attempt to use the helper script to discover
	// and set the power settings
	if options.PowerHelper != "" && node.PowerType() == "" {
	cmd := exec.Command(options.PowerHelper,
	append([]string{options.PowerHelperUser, options.PowerHelperHost},
	node.MACs()...)...)
	stdout, err := cmd.Output()
	if err != nil {
	log.Printf("[error] Failed while executing power helper script '%s' : %s",
	options.PowerHelper, err)
	return err
	}
	power := Power{}
	err = json.Unmarshal(stdout, &power)
	if err != nil {
	log.Printf("[error] Failed to parse output of power helper script '%s' : %s",
	options.PowerHelper, err)
	return err
	}
	switch power.Name {
	case "amt":
	params := map[string]string{
	"mac_address": power.MacAddress,
	"power_pass": power.PowerPassword,
	"power_address": power.PowerAddress,
	}
	node.UpdatePowerParameters(power.Name, params)
	default:
	log.Printf("[warn] Unsupported power type discovered '%s'", power.Name)
	}
	}
	break
	}
	return nil
	}

	// Wait a do nothing state, while work is being done
	var Wait = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
	log.Printf("WAIT: %s", node.Hostname())
	return nil
	}

	// Fail a state from which we cannot, currently, automatically recover
	var Fail = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
	log.Printf("FAIL: %s", node.Hostname())
	return nil
	}

	// AdminState an administrative state from which we should make no automatic transition
	var AdminState = func(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
	log.Printf("ADMIN: %s", node.Hostname())
	return nil
	}

	func findActions(target string, current string) ([]Action, error) {
	targets, ok := Transitions[target]
	if !ok {
	log.Printf("[warn] unable to find transitions to target state '%s'", target)
	return nil, fmt.Errorf("Could not find transition to target state '%s'", target)
	}

	actions, ok := targets[current]
	if !ok {
	log.Printf("[warn] unable to find transition from current state '%s' to target state '%s'",
	current, target)
	return nil, fmt.Errorf("Could not find transition from current state '%s' to target state '%s'",
	current, target)
	}

	return actions, nil
	}

	// ProcessActions
	func ProcessActions(actions []Action, client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
	var err error
	for _, action := range actions {
	if err = action(client, node, options); err != nil {
	log.Printf("[error] Error while processing action for node '%s' : %s",
	node.Hostname(), err)
	break
	}
	}
	return err
	}

	// ProcessNode something
	func ProcessNode(client *maas.MAASObject, node MaasNode, options ProcessingOptions) error {
	substatus, err := node.GetInteger("substatus")
	if err != nil {
	return err
	}
	actions, err := findActions("Deployed", MaasNodeStatus(substatus).String())
	if err != nil {
	return err
	}

	if options.Preview {
	ProcessActions(actions, client, node, options)
	} else {
	go ProcessActions(actions, client, node, options)
	}
	return nil
	}

	func buildFilter(filter []string) ([]*regexp.Regexp, error) {

	results := make([]*regexp.Regexp, len(filter))
	for i, v := range filter {
	r, err := regexp.Compile(v)
	if err != nil {
	return nil, err
	}
	results[i] = r
	}
	return results, nil
	}

	func matchedFilter(include []*regexp.Regexp, target string) bool {
	for _, e := range include {
	if e.MatchString(target) {
	return true
	}
	}
	return false
	}

	// ProcessAll something
	func ProcessAll(client *maas.MAASObject, nodes []MaasNode, options ProcessingOptions) []error {
	errors := make([]error, len(nodes))
	includeHosts, err := buildFilter(options.Filter.Hosts.Include)
	if err != nil {
	log.Fatalf("[error] invalid regular expression for include filter '%s' : %s", options.Filter.Hosts.Include, err)
	}

	includeZones, err := buildFilter(options.Filter.Zones.Include)
	if err != nil {
	log.Fatalf("[error] invalid regular expression for include filter '%v' : %s", options.Filter.Zones.Include, err)
	}

	for i, node := range nodes {
	// For hostnames we always match on an empty filter
	if len(includeHosts) >= 0 && matchedFilter(includeHosts, node.Hostname()) {

	// For zones we don't match on an empty filter
	if len(includeZones) >= 0 && matchedFilter(includeZones, node.Zone()) {
	err := ProcessNode(client, node, options)
	if err != nil {
	errors[i] = err
	} else {
	errors[i] = nil
	}
	} else {
	if options.Verbose {
	log.Printf("[info] ignoring node '%s' as its zone '%s' didn't match include zone name filter '%v'",
	node.Hostname(), node.Zone(), options.Filter.Zones.Include)
	}
	}
	} else {
	if options.Verbose {
	log.Printf("[info] ignoring node '%s' as it didn't match include hostname filter '%v'",
	node.Hostname(), options.Filter.Hosts.Include)
	}
	}
	}
	return errors
	}