package kubernetes import ( "bytes" "fmt" "io" "strconv" "strings" "github.com/pkg/errors" "gopkg.in/yaml.v3" ) const ( labelPortainerAppStack = "io.portainer.kubernetes.application.stack" labelPortainerAppStackID = "io.portainer.kubernetes.application.stackid" labelPortainerAppName = "io.portainer.kubernetes.application.name" labelPortainerAppOwner = "io.portainer.kubernetes.application.owner" labelPortainerAppKind = "io.portainer.kubernetes.application.kind" ) // KubeAppLabels are labels applied to all resources deployed in a kubernetes stack type KubeAppLabels struct { StackID int StackName string Owner string Kind string } // ToMap converts KubeAppLabels to a map[string]string func (kal *KubeAppLabels) ToMap() map[string]string { return map[string]string{ labelPortainerAppStackID: strconv.Itoa(kal.StackID), labelPortainerAppStack: kal.StackName, labelPortainerAppName: kal.StackName, labelPortainerAppOwner: kal.Owner, labelPortainerAppKind: kal.Kind, } } // GetHelmAppLabels returns the labels to be applied to portainer deployed helm applications func GetHelmAppLabels(name, owner string) map[string]string { return map[string]string{ labelPortainerAppName: name, labelPortainerAppOwner: owner, } } // AddAppLabels adds required labels to "Resource"->metadata->labels. // It'll add those labels to all Resource (nodes with a kind property exluding a list) it can find in provided yaml. // Items in the yaml file could either be organised as a list or broken into multi documents. func AddAppLabels(manifestYaml []byte, appLabels map[string]string) ([]byte, error) { if bytes.Equal(manifestYaml, []byte("")) { return manifestYaml, nil } postProcessYaml := func(yamlDoc interface{}) error { addResourceLabels(yamlDoc, appLabels) return nil } docs, err := ExtractDocuments(manifestYaml, postProcessYaml) if err != nil { return nil, err } return bytes.Join(docs, []byte("---\n")), nil } // ExtractDocuments extracts all the documents from a yaml file // Optionally post-process each document with a function, which can modify the document in place. // Pass in nil for postProcessYaml to skip post-processing. func ExtractDocuments(manifestYaml []byte, postProcessYaml func(interface{}) error) ([][]byte, error) { docs := make([][]byte, 0) yamlDecoder := yaml.NewDecoder(bytes.NewReader(manifestYaml)) for { m := make(map[string]interface{}) err := yamlDecoder.Decode(&m) // if decoded document is empty if m == nil { continue } // if there are no more documents in the file if errors.Is(err, io.EOF) { break } // optionally post-process yaml if postProcessYaml != nil { if err := postProcessYaml(m); err != nil { return nil, errors.Wrap(err, "failed to post process yaml document") } } var out bytes.Buffer yamlEncoder := yaml.NewEncoder(&out) yamlEncoder.SetIndent(2) if err := yamlEncoder.Encode(m); err != nil { return nil, errors.Wrap(err, "failed to marshal yaml manifest") } docs = append(docs, out.Bytes()) } return docs, nil } // GetNamespace returns the namespace of a kubernetes resource from its metadata // It returns an empty string if namespace is not found in the resource func GetNamespace(manifestYaml []byte) (string, error) { yamlDecoder := yaml.NewDecoder(bytes.NewReader(manifestYaml)) m := make(map[string]interface{}) err := yamlDecoder.Decode(&m) if err != nil { return "", errors.Wrap(err, "failed to unmarshal yaml manifest when obtaining namespace") } if _, ok := m["metadata"]; ok { if namespace, ok := m["metadata"].(map[string]interface{})["namespace"]; ok { return namespace.(string), nil } } return "", nil } func addResourceLabels(yamlDoc interface{}, appLabels map[string]string) { m, ok := yamlDoc.(map[string]interface{}) if !ok { return } kind, ok := m["kind"] if ok && !strings.EqualFold(kind.(string), "list") { addLabels(m, appLabels) return } for _, v := range m { switch v.(type) { case map[string]interface{}: addResourceLabels(v, appLabels) case []interface{}: for _, item := range v.([]interface{}) { addResourceLabels(item, appLabels) } } } } func addLabels(obj map[string]interface{}, appLabels map[string]string) { metadata := make(map[string]interface{}) if m, ok := obj["metadata"]; ok { metadata = m.(map[string]interface{}) } labels := make(map[string]string) if l, ok := metadata["labels"]; ok { for k, v := range l.(map[string]interface{}) { labels[k] = fmt.Sprintf("%v", v) } } // merge app labels with existing labels for k, v := range appLabels { labels[k] = v } metadata["labels"] = labels obj["metadata"] = metadata }