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4803be1987d50da9d662e846e83db94dc0dac2b3
mgmt/resources/msg.go
James Shubin 2e718c0e9d resources: Improve notification system and notify refreshes 
Resources can send "refresh" notifications along edges. These messages
are sent whenever the upstream (initiating vertex) changes state. When
the changed state propagates downstream, it will be paired with a
refresh flag which can be queried in the CheckApply method of that
resource.

Future work will include a stateful refresh tracking mechanism so that
if a refresh event is generated and not consumed, it will be saved
across an interrupt (shutdown) or a crash so that it can be re-applied
on the subsequent run. This is important because the unapplied refresh
is a form of hysteresis which needs to be tracked and remembered or we
won't be able to determine that the state is wrong!

Still to do:
* Update the autogrouping code to handle the edge notify properties!
* Actually finish the stateful bool code
2016-12-03 01:35:31 -05:00

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// Mgmt
// Copyright (C) 2013-2016+ James Shubin and the project contributors
// Written by James Shubin <james@shubin.ca> and the project contributors
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package resources
import (
"encoding/gob"
"fmt"
"log"
"regexp"
"strings"
"time"
"github.com/purpleidea/mgmt/event"
"github.com/coreos/go-systemd/journal"
)
func init() {
gob.Register(&MsgRes{})
}
// MsgRes is a resource that writes messages to logs.
type MsgRes struct {
BaseRes `yaml:",inline"`
Body string `yaml:"body"`
Priority string `yaml:"priority"`
Fields map[string]string `yaml:"fields"`
Journal bool `yaml:"journal"` // enable systemd journal output
Syslog bool `yaml:"syslog"` // enable syslog output
logStateOK bool
journalStateOK bool
syslogStateOK bool
}
// MsgUID is a unique representation for a MsgRes object.
type MsgUID struct {
BaseUID
body string
}
// NewMsgRes is a constructor for this resource.
func NewMsgRes(name, body, priority string, journal, syslog bool, fields map[string]string) (*MsgRes, error) {
message := name
if body != "" {
message = body
}
obj := &MsgRes{
BaseRes: BaseRes{
Name: name,
},
Body: message,
Priority: priority,
Fields: fields,
Journal: journal,
Syslog: syslog,
}
return obj, obj.Init()
}
// Init runs some startup code for this resource.
func (obj *MsgRes) Init() error {
obj.BaseRes.kind = "Msg"
return obj.BaseRes.Init() // call base init, b/c we're overrriding
}
// Validate the params that are passed to MsgRes
func (obj *MsgRes) Validate() error {
invalidCharacters := regexp.MustCompile("[^a-zA-Z0-9_]")
for field := range obj.Fields {
if invalidCharacters.FindString(field) != "" {
return fmt.Errorf("Invalid character in field %s.", field)
}
if strings.HasPrefix(field, "_") {
return fmt.Errorf("Fields cannot begin with _.")
}
}
return nil
}
// isAllStateOK derives a compound state from all internal cache flags that apply to this resource.
func (obj *MsgRes) isAllStateOK() bool {
if obj.Journal && !obj.journalStateOK {
return false
}
if obj.Syslog && !obj.syslogStateOK {
return false
}
return obj.logStateOK
}
// updateStateOK sets the global state so it can be read by the engine.
func (obj *MsgRes) updateStateOK() {
obj.StateOK(obj.isAllStateOK())
}
// JournalPriority converts a string description to a numeric priority.
// XXX: Have Validate() make sure it actually is one of these.
func (obj *MsgRes) journalPriority() journal.Priority {
switch obj.Priority {
case "Emerg":
return journal.PriEmerg
case "Alert":
return journal.PriAlert
case "Crit":
return journal.PriCrit
case "Err":
return journal.PriErr
case "Warning":
return journal.PriWarning
case "Notice":
return journal.PriNotice
case "Info":
return journal.PriInfo
case "Debug":
return journal.PriDebug
}
return journal.PriNotice
}
// Watch is the primary listener for this resource and it outputs events.
func (obj *MsgRes) Watch(processChan chan event.Event) error {
if obj.IsWatching() {
return nil
}
obj.SetWatching(true)
defer obj.SetWatching(false)
cuid := obj.converger.Register()
defer cuid.Unregister()
var startup bool
Startup := func(block bool) <-chan time.Time {
if block {
return nil // blocks forever
//return make(chan time.Time) // blocks forever
}
return time.After(time.Duration(500) * time.Millisecond) // 1/2 the resolution of converged timeout
}
var send = false // send event?
var exit = false
for {
obj.SetState(ResStateWatching) // reset
select {
case event := <-obj.Events():
cuid.SetConverged(false)
// we avoid sending events on unpause
if exit, send = obj.ReadEvent(&event); exit {
return nil // exit
}
case <-cuid.ConvergedTimer():
cuid.SetConverged(true) // converged!
continue
case <-Startup(startup):
cuid.SetConverged(false)
send = true
}
// do all our event sending all together to avoid duplicate msgs
if send {
startup = true // startup finished
send = false
// only do this on certain types of events
//obj.isStateOK = false // something made state dirty
if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
return err // we exit or bubble up a NACK...
}
}
}
}
// CheckApply method for Msg resource.
// Every check leads to an apply, meaning that the message is flushed to the journal.
func (obj *MsgRes) CheckApply(apply bool) (bool, error) {
// isStateOK() done by engine, so we updateStateOK() to pass in value
//if obj.isAllStateOK() {
// return true, nil
//}
if obj.Refresh() { // if we were notified...
// invalidate cached state...
obj.logStateOK = false
if obj.Journal {
obj.journalStateOK = false
}
if obj.Syslog {
obj.syslogStateOK = false
}
obj.updateStateOK()
}
if !obj.logStateOK {
log.Printf("%s[%s]: Body: %s", obj.Kind(), obj.GetName(), obj.Body)
obj.logStateOK = true
obj.updateStateOK()
}
if !apply {
return false, nil
}
if obj.Journal && !obj.journalStateOK {
if err := journal.Send(obj.Body, obj.journalPriority(), obj.Fields); err != nil {
return false, err
}
obj.journalStateOK = true
obj.updateStateOK()
}
if obj.Syslog && !obj.syslogStateOK {
// TODO: implement syslog client
obj.syslogStateOK = true
obj.updateStateOK()
}
return false, nil
}
// GetUIDs includes all params to make a unique identification of this object.
// Most resources only return one, although some resources can return multiple.
func (obj *MsgRes) GetUIDs() []ResUID {
x := &MsgUID{
BaseUID: BaseUID{
name: obj.GetName(),
kind: obj.Kind(),
},
body: obj.Body,
}
return []ResUID{x}
}
// AutoEdges returns the AutoEdges. In this case none are used.
func (obj *MsgRes) AutoEdges() AutoEdge {
return nil
}
// Compare two resources and return if they are equivalent.
func (obj *MsgRes) Compare(res Res) bool {
switch res.(type) {
case *MsgRes:
res := res.(*MsgRes)
if !obj.BaseRes.Compare(res) {
return false
}
if obj.Body != res.Body {
return false
}
if obj.Priority != res.Priority {
return false
}
if len(obj.Fields) != len(res.Fields) {
return false
}
for field, value := range obj.Fields {
if res.Fields[field] != value {
return false
}
}
default:
return false
}
return true
}
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