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6e9439f4e3344dbdea9aa4e215700774bb217ed1
mgmt/config.go
James Shubin f7858b8e9b Add state caching and invalidation to service type 
This required a change in the event system to add an "activity" field.
This is meant to be generic in the case that there is more than one need
for it, but at the moment, allows a poke to tell that it is a poke in
response to an apply that just finished, instead of a regular poke or
backpoke in which all that matters is timestamp updates, because there
wasn't any actual work done (since that state was okay).
2016-01-15 00:02:45 -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 main
import (
"errors"
"gopkg.in/yaml.v2"
"io/ioutil"
"log"
"strings"
)
type collectorTypeConfig struct {
Type string `yaml:"type"`
Pattern string `yaml:"pattern"` // XXX: Not Implemented
}
type vertexConfig struct {
Type string `yaml:"type"`
Name string `yaml:"name"`
}
type edgeConfig struct {
Name string `yaml:"name"`
From vertexConfig `yaml:"from"`
To vertexConfig `yaml:"to"`
}
type graphConfig struct {
Graph string `yaml:"graph"`
Types struct {
Noop []NoopType `yaml:"noop"`
File []FileType `yaml:"file"`
Service []ServiceType `yaml:"service"`
Exec []ExecType `yaml:"exec"`
} `yaml:"types"`
Collector []collectorTypeConfig `yaml:"collect"`
Edges []edgeConfig `yaml:"edges"`
Comment string `yaml:"comment"`
}
func (c *graphConfig) Parse(data []byte) error {
if err := yaml.Unmarshal(data, c); err != nil {
return err
}
if c.Graph == "" {
return errors.New("Graph config: invalid `graph`")
}
return nil
}
func ParseConfigFromFile(filename string) *graphConfig {
data, err := ioutil.ReadFile(filename)
if err != nil {
log.Printf("Error: Config: ParseConfigFromFile: File: %v", err)
return nil
}
var config graphConfig
if err := config.Parse(data); err != nil {
log.Printf("Error: Config: ParseConfigFromFile: Parse: %v", err)
return nil
}
return &config
}
// XXX: we need to fix this function so that it either fails without modifying
// the graph, passes successfully and modifies it, or basically panics i guess
// this way an invalid compilation can leave the old graph running, and we we
// don't modify a partial graph. so we really need to validate, and then perform
// whatever actions are necessary
// finding some way to do this on a copy of the graph, and then do a graph diff
// and merge the new data into the old graph would be more appropriate, in
// particular if we can ensure the graph merge can't fail. As for the putting
// of stuff into etcd, we should probably store the operations to complete in
// the new graph, and keep retrying until it succeeds, thus blocking any new
// etcd operations until that time.
func UpdateGraphFromConfig(config *graphConfig, hostname string, g *Graph, etcdO *EtcdWObject) bool {
var NoopMap map[string]*Vertex = make(map[string]*Vertex)
var FileMap map[string]*Vertex = make(map[string]*Vertex)
var ServiceMap map[string]*Vertex = make(map[string]*Vertex)
var ExecMap map[string]*Vertex = make(map[string]*Vertex)
var lookup map[string]map[string]*Vertex = make(map[string]map[string]*Vertex)
lookup["noop"] = NoopMap
lookup["file"] = FileMap
lookup["service"] = ServiceMap
lookup["exec"] = ExecMap
//log.Printf("%+v", config) // debug
g.SetName(config.Graph) // set graph name
var keep []*Vertex // list of vertex which are the same in new graph
for _, t := range config.Types.Noop {
obj := NewNoopType(t.Name)
v := g.GetVertexMatch(obj)
if v == nil { // no match found
v = NewVertex(obj)
g.AddVertex(v) // call standalone in case not part of an edge
}
NoopMap[obj.Name] = v // used for constructing edges
keep = append(keep, v) // append
}
for _, t := range config.Types.File {
// XXX: should we export based on a @@ prefix, or a metaparam
// like exported => true || exported => (host pattern)||(other pattern?)
if strings.HasPrefix(t.Name, "@@") { // exported resource
// add to etcd storage...
t.Name = t.Name[2:] //slice off @@
if !etcdO.EtcdPut(hostname, t.Name, "file", t) {
log.Printf("Problem exporting file resource %v.", t.Name)
continue
}
} else {
obj := NewFileType(t.Name, t.Path, t.Dirname, t.Basename, t.Content, t.State)
v := g.GetVertexMatch(obj)
if v == nil { // no match found
v = NewVertex(obj)
g.AddVertex(v) // call standalone in case not part of an edge
}
FileMap[obj.Name] = v // used for constructing edges
keep = append(keep, v) // append
}
}
for _, t := range config.Types.Service {
obj := NewServiceType(t.Name, t.State, t.Startup)
v := g.GetVertexMatch(obj)
if v == nil { // no match found
v = NewVertex(obj)
g.AddVertex(v) // call standalone in case not part of an edge
}
ServiceMap[obj.Name] = v // used for constructing edges
keep = append(keep, v) // append
}
for _, t := range config.Types.Exec {
obj := NewExecType(t.Name, t.Cmd, t.Shell, t.Timeout, t.WatchCmd, t.WatchShell, t.IfCmd, t.IfShell, t.PollInt, t.State)
v := g.GetVertexMatch(obj)
if v == nil { // no match found
v = NewVertex(obj)
g.AddVertex(v) // call standalone in case not part of an edge
}
ExecMap[obj.Name] = v // used for constructing edges
keep = append(keep, v) // append
}
// lookup from etcd graph
// do all the graph look ups in one single step, so that if the etcd
// database changes, we don't have a partial state of affairs...
nodes, ok := etcdO.EtcdGet()
if ok {
for _, t := range config.Collector {
// XXX: use t.Type and optionally t.Pattern to collect from etcd storage
log.Printf("Collect: %v; Pattern: %v", t.Type, t.Pattern)
for _, x := range etcdO.EtcdGetProcess(nodes, "file") {
var obj *FileType
if B64ToObj(x, &obj) != true {
log.Printf("Collect: File: %v not collected!", x)
continue
}
if t.Pattern != "" { // XXX: currently the pattern for files can only override the Dirname variable :P
obj.Dirname = t.Pattern
}
log.Printf("Collect: File: %v collected!", obj.GetName())
// XXX: similar to file add code:
v := g.GetVertexMatch(obj)
if v == nil { // no match found
obj.Init() // initialize go channels or things won't work!!!
v = NewVertex(obj)
g.AddVertex(v) // call standalone in case not part of an edge
}
FileMap[obj.GetName()] = v // used for constructing edges
keep = append(keep, v) // append
}
}
}
// get rid of any vertices we shouldn't "keep" (that aren't in new graph)
for _, v := range g.GetVertices() {
if !HasVertex(v, keep) {
// wait for exit before starting new graph!
v.Type.SendEvent(eventExit, true, false)
g.DeleteVertex(v)
}
}
for _, e := range config.Edges {
if _, ok := lookup[e.From.Type]; !ok {
return false
}
if _, ok := lookup[e.To.Type]; !ok {
return false
}
if _, ok := lookup[e.From.Type][e.From.Name]; !ok {
return false
}
if _, ok := lookup[e.To.Type][e.To.Name]; !ok {
return false
}
g.AddEdge(lookup[e.From.Type][e.From.Name], lookup[e.To.Type][e.To.Name], NewEdge(e.Name))
}
return true
}
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