DISCONTINUATION OF PROJECT.
This project will no longer be maintained by Intel.
This project has been identified as having known security escapes.
Intel has ceased development and contributions including, but not limited to, maintenance, bug fixes, new releases, or updates, to this project.
Intel no longer accepts patches to this project.
Set of packages that provide tools for plugin development
It's used in the snap framework.
The config
package provides helpful methods to retrive global config items.
See it in action:
if interestingValue, err := GetGlobalConfigItem(cfg, "something_interesting"); err != nil {
DoSomething(interestingValue)
}
}
interestingItems := []string{"dummy_string", "dummy_bool", "dummy_int", "dummy_float"}
if interestingValues, err := GetGlobalConfigItems(cfg, interestingItems); err != nil {
for _, interestingValue := range interestingValues {
DoSomething(interestingValue)
}
}
The logger
package wraps logrus package (https://github.com/Sirupsen/logrus).
It sets logging from plugin to separate file. It adds caller function name to each message.
import (
. "github.com/intelsdi-x/snap-plugin-utilities/logger"
)
func main() {
LogDebug("Some useful information", "varibale", value)
LogInfo("Some information worth noting", interesting, thing, done)
LogWarn("Take a look on that", warning)
LogError("This is bad", "error", err)
// Exit after
LogFatal("This is really bad", "error", err, value)
// Call panic()
LogPanic("Show me the stacks!")
}
The ns
package provides functions:
- to extract namespace from maps, JSON and struct compositions,
- to validate parts of namespace and detect not allowed characters,
- to replace not allowed characters in parts of namespace.
It is useful for situations when full knowledge of available metrics is not known at time when GetMetricTypes() is called.
NamespaceFromMap example usage:
Baz := map[string]interface{}{"Bazo": "bazo", "Fazo": "fazo", "Mazo": "mazo"}
Foo := map[string]interface{}{"Foos": "foos", "Boos": "boos"}
Bar := []map[string]interface{}{Baz, Baz}
m := map[string]interface{}{
"Foo": Foo,
"Bar": Bar,
}
ns := []string{}
NamespaceFromMap(m, "root", &ns)
/*
ns contains:
"root/Foo/Foos"
"root/Foo/Boos"
"root/Bar/0/Bazo"
"root/Bar/0/Fazo"
"root/Bar/0/Mazo"
"root/Bar/1/Bazo"
"root/Bar/1/Fazo"
"root/Bar/1/Mazo"
*/
NamespaceFromJSON example usage:
Foo := struct {
Bar struct {
Qaz []int `json:"qaz"`
Faz int `json:"faz"`
} `json:"bar"`
Baz string `json:"baz"`
}{
struct {
Qaz []int `json:"qaz"`
Faz int `json:"faz"`
}{
[]int{1, 2},
2,
},
"baz_val",
}
data, _ := json.Marshal(Foo)
ns := []string{}
NamespaceFromJSON(&data, "root", &ns)
/*
ns contains:
"root/bar/qaz/0"
"root/bar/qaz/1"
"root/bar/faz"
"root/baz"
*/
NamespaceFromComposition example usage:
Foo := struct {
Bar struct {
Qaz []int
Faz int
}
Baz string
}{
struct {
Qaz []int
Faz int
}{
[]int{1, 2},
2,
},
"baz_val",
}
ns := []string{}
NamespaceFromComposition(Foo, "root", &ns)
/*
ns contains:
"root/Bar/Qaz/0"
"root/Bar/Qaz/1"
"root/Bar/Faz"
"root/Baz"
*/
NamespaceFromCompositionTags example usage:
Foo := struct {
Bar struct {
Qaz []int `json:"qaz"`
Faz int `json:"faz"`
} `json:"bar"`
Baz string `json:"baz"`
}{
struct {
Qaz []int `json:"qaz"`
Faz int `json:"faz"`
}{
[]int{1, 2},
2,
},
"baz_val",
}
ns := []string{}
NamespaceFromCompositionTags(Foo, "root", &ns)
/*
ns contains:
"root/bar/qaz/0"
"root/bar/qaz/1"
"root/bar/faz"
"root/baz"
*/
ReplaceNotAllowedCharsInNamespacePart example usage:
ns := []string{"intel", "plugin", "metric^1"}
for i := range ns {
ns[i] = ReplaceNotAllowedCharsInNamespacePart(ns[i])
}
/*
ns contains:
"intel"
"plugin"
"metric_1"
*/
ValidateMetricNamespacePart example usage:
ns := []string{"intel", "plugin", "metric^1"}
for i := range ns {
err := ValidateMetricNamespacePart(ns[i])
if err != nil {
fmt.Println(err)
}
}
FromCompositeObject is a configurable function for building namespaces from all kinds of nested maps, structs and slices.
Offers control over inspecting nil
pointers, empty containers and exposing struct fields under json tags.
Available options include (presented with default values):
InspectEmptyContainers(AlwaysTrue),
InspectNilPointers(AlwaysTrue),
EntryForContainersRoot(AlwaysFalse),
ExportJsonFieldNames(AlwaysTrue),
WildcardEntryInContainer(AlwaysFalse),
SanitizeNamespaceParts(AlwaysTrue).
Example usage:
type first struct {
Uno bool `json:"uno_f"`
}
type fourth struct {
Cuatro bool
}
m := struct {
First *first `json:"first_f"`
Second map[string]int `json:"second_f"`
Third int `json:"-"`
Fourth []*fourth
}{
First: nil,
Fourth: []*fourth{&fourth{}, &fourth{}}}
ns := []string{}
FromCompositeObject(m, "root", &ns, WildcardEntryInContainer(AlwaysTrue))
// ns contains:
// "root/first_f/uno_f",
// "root/second_f/*",
// "root/Fourth/*/Cuatro",
// "root/Fourth/0/Cuatro",
// "root/Fourth/1/Cuatro"
Creates array of Processors connected by channels. Each Processor can do single processing on data transmitted by channels
Processor is interface which consists of single method Run, whose arguments are input and output Pipes. Pipe is channel which can through interface{} It can be used to implement transformations on incoming data
type DoNothing struct{}
func (self DoNothing) Run(input, output Pipe) {
for v := range input {
output <- v
}
close(output)
}
type StringContains struct{
Str string
}
func (self StringContains) Run(input, output Pipe) {
for v := range input {
if strings.Contains(v.(string), self.Str) {
output <- v
}
}
close(output)
}
inputPipe := make(Pipe)
outputPipe := Pipeline(inputPipe, DoNothing{}, StringContains{})
The source
package provides handy way of dealing with external command output.
It can be used for continous command execution (EMON or PCM like), or for single command calls.
ech := make(chan error)
out := make(chan interface{})
s := Source{"du", []string{"/some/path", "-h", "--max-depth=10"}}
go s.Generate(out, ech)
LOOP:
for {
select {
case data := <-out:
fmt.Printf(">>> Recieving {%v}\n", data)
case e := <-ech:
fmt.Printf("ERRROR {%v}\n", e)
break LOOP
case <-time.After(time.Second * 2):
fmt.Printf("No activity\n")
break LOOP
}
}
The stack
package provides simple implementation of stack.
stack := new(Stack)
for i := 0; i < 5; i++ {
stack.Push(i)
}
for !stack.Empty() {
fmt.Printf("%v\n", stack.Pop())
}
/*
prints:
5
4
3
2
1
*/
The str
package provides helpful methods to work with string sets, maps and slices
See it in action:
Set:
set := InitSet()
set.Add("element")
elements := set.Elements()
set.Delete("element")
Map:
sMap := StringMap{}
sMap["key"] = "val"
keys := sMap.Keys()
values := sMap.Values()
sMap.AddMap(map[string]string{"new": "new"})
Slices
elements := []string{"a_", "b_", "___c", "1", "ab1"}
ForEach(elements, func(e string) string {
return strings.Replace(e, "_", "", -1)
})
found := Contains(elements, "a")
filtered := Filter(elements, func(e string) bool {
return strings.Contains(e, "1")
})
found := Any(elements, func(e string) bool {
return strings.Contains(e, "1")
})
found := All(elements, func(e string) bool {
return strings.Contains(e, "1")
})
This repository is one of many plugins in snap, a powerful telemetry framework. See the full project at http://github.com/intelsdi-x/snap To reach out to other users, head to the main framework
We love contributions!
There's more than one way to give back, from examples to blogs to code updates. See our recommended process in CONTRIBUTING.md.
snap, along with this plugin, is an Open Source software released under the Apache 2.0 License.
- Author: Izabella Raulin
- Author: Marcin Krolik
- Author: [Marcin Olszewski] (https://github.com/marcintao)
Thank you! Your contribution is incredibly important to us.