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-rw-r--r--src/tools/emcoui/middle_end/app/app.go1014
1 files changed, 1014 insertions, 0 deletions
diff --git a/src/tools/emcoui/middle_end/app/app.go b/src/tools/emcoui/middle_end/app/app.go
new file mode 100644
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--- /dev/null
+++ b/src/tools/emcoui/middle_end/app/app.go
@@ -0,0 +1,1014 @@
+/*
+=======================================================================
+Copyright (c) 2017-2020 Aarna Networks, Inc.
+All rights reserved.
+======================================================================
+Licensed under the Apache License, Version 2.0 (the "License");
+you may not use this file except in compliance with the License.
+You may obtain a copy of the License at
+ http://www.apache.org/licenses/LICENSE-2.0
+Unless required by applicable law or agreed to in writing, software
+distributed under the License is distributed on an "AS IS" BASIS,
+WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+See the License for the specific language governing permissions and
+limitations under the License.
+========================================================================
+*/
+
+package app
+
+import (
+ "bytes"
+ "context"
+ "encoding/json"
+ "fmt"
+ "io"
+ "io/ioutil"
+ "log"
+ "mime/multipart"
+ "net/http"
+
+ "github.com/gorilla/mux"
+ metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
+ "k8s.io/client-go/kubernetes"
+ "k8s.io/client-go/tools/clientcmd"
+)
+
+type deployServiceData struct {
+ Name string `json:"name"`
+ Description string `json:"description"`
+ Spec struct {
+ ProjectName string `json:"projectName"`
+ Apps []appsData `json:"appsData"`
+ } `json:"spec"`
+}
+
+type deployDigData struct {
+ Name string `json:"name"`
+ Description string `json:"description"`
+ CompositeAppName string `json:"compositeApp"`
+ CompositeProfile string `json:"compositeProfile"`
+ DigVersion string `json:"version"`
+ CompositeAppVersion string `json:"compositeAppVersion"`
+ Spec struct {
+ ProjectName string `json:"projectName"`
+ Apps []appsData `json:"appsData"`
+ } `json:"spec"`
+}
+
+// Exists is for mongo $exists filter
+type Exists struct {
+ Exists string `json:"$exists"`
+}
+
+// This is the json payload that the orchesration API expexts.
+type appsData struct {
+ Metadata struct {
+ Name string `json:"name"`
+ Description string `json:"description"`
+ FileName string `json:"filename"`
+ } `json:"metadata"`
+ ProfileMetadata struct {
+ Name string `json:"name"`
+ FileName string `json:"filename"`
+ } `json:"profileMetadata"`
+ Clusters []struct {
+ Provider string `json:"provider"`
+ SelectedClusters []struct {
+ Name string `json:"name"`
+ Interfaces []struct {
+ NetworkName string `json:"networkName"`
+ IP string `json:"ip"`
+ Subnet string `json:"subnet"`
+ } `json:"interfaces"`
+ } `json:"selectedClusters"`
+ } `json:"clusters"`
+}
+
+type DigsInProject struct {
+ Metadata struct {
+ Name string `json:"name"`
+ CompositeAppName string `json:"compositeAppName"`
+ CompositeAppVersion string `json:"compositeAppVersion"`
+ Description string `json:"description"`
+ UserData1 string `userData1:"userData1"`
+ UserData2 string `userData2:"userData2"`
+ } `json:"metadata"`
+ Spec struct {
+ DigIntentsData []DigDeployedIntents `json:"deployedIntents"`
+ Profile string `json:"profile"`
+ Version string `json:"version"`
+ Lcloud string `json:"logicalCloud"`
+ OverrideValuesObj []OverrideValues `json:"overrideValues"`
+ GpintArray []*DigsGpint `json:"GenericPlacementIntents,omitempty"`
+ NwintArray []*DigsNwint `json:"networkCtlIntents,omitempty"`
+ } `json:"spec"`
+}
+
+type DigsGpint struct {
+ Metadata apiMetaData `json:"metadata,omitempty"`
+ Spec struct {
+ AppIntentArray []PlacementIntentExport `json:"placementIntent,omitempty"`
+ } `json:"spec,omitempty"`
+}
+
+type DigsNwint struct {
+ Metadata apiMetaData `json:"metadata,omitempty"`
+ Spec struct {
+ WorkloadIntentsArray []*WorkloadIntents `json:"WorkloadIntents,omitempty"`
+ } `json:"spec,omitempty"`
+}
+type WorkloadIntents struct {
+ Metadata apiMetaData `json:"metadata,omitempty"`
+ Spec struct {
+ Interfaces []NwInterface `json:"interfaces,omitempty"`
+ } `json:"spec,omitempty"`
+}
+
+// Project Tree
+type ProjectTree struct {
+ Metadata ProjectMetadata
+ compositeAppMap map[string]*CompositeAppTree
+}
+
+type treeTraverseFilter struct {
+ compositeAppName string
+ compositeAppVersion string
+ digName string
+}
+
+// Composite app tree
+type CompositeAppTree struct {
+ Metadata CompositeApp
+ AppsDataArray map[string]*AppsData
+ ProfileDataArray map[string]*ProfilesData
+ DigMap map[string]*DigReadData
+}
+
+type DigReadData struct {
+ DigpData DeploymentIGP
+ DigIntentsData DigpIntents
+ GpintMap map[string]*GpintData
+ NwintMap map[string]*NwintData
+}
+
+type GpintData struct {
+ Gpint GenericPlacementIntent
+ AppIntentArray []PlacementIntent
+}
+
+type NwintData struct {
+ Nwint NetworkCtlIntent
+ WrkintMap map[string]*WrkintData
+}
+
+type WrkintData struct {
+ Wrkint NetworkWlIntent
+ Interfaces []NwInterface
+}
+
+type AppsData struct {
+ App CompositeApp
+ CompositeProfile ProfileMeta
+}
+
+type ProfilesData struct {
+ Profile ProfileMeta
+ AppProfiles []ProfileMeta
+}
+
+type ClusterMetadata struct {
+ Metadata apiMetaData `json:"Metadata"`
+}
+
+type apiMetaData struct {
+ Name string `json:"name"`
+ Description string `json:"description"`
+ UserData1 string `userData1:"userData1"`
+ UserData2 string `userData2:"userData2"`
+}
+
+// The interface
+type orchWorkflow interface {
+ createAnchor() interface{}
+ createObject() interface{}
+ getObject() (interface{}, interface{})
+ getAnchor() (interface{}, interface{})
+ deleteObject() interface{}
+ deleteAnchor() interface{}
+}
+
+// MiddleendConfig The configmap of the middleent
+type MiddleendConfig struct {
+ OwnPort string `json:"ownport"`
+ Clm string `json:"clm"`
+ OrchService string `json:"orchestrator"`
+ OvnService string `json:"ovnaction"`
+ Mongo string `json:"mongo"`
+}
+
+// OrchestrationHandler interface, handling the composite app APIs
+type OrchestrationHandler struct {
+ MiddleendConf MiddleendConfig
+ client http.Client
+ compositeAppName string
+ compositeAppDesc string
+ AppName string
+ meta []appsData
+ DigData deployDigData
+ file map[string]*multipart.FileHeader
+ dataRead *ProjectTree
+ treeFilter *treeTraverseFilter
+ DigpReturnJson []DigsInProject
+ projectName string
+ projectDesc string
+ version string
+ response struct {
+ payload map[string][]byte
+ status map[string]int
+ }
+ digpIntents map[string]string
+ nwCtlIntents map[string]string
+}
+
+// NewAppHandler interface implementing REST callhandler
+func NewAppHandler() *OrchestrationHandler {
+ return &OrchestrationHandler{}
+}
+
+// GetHealth to check connectivity
+func (h OrchestrationHandler) GetHealth(w http.ResponseWriter, r *http.Request) {
+ w.WriteHeader(http.StatusOK)
+
+}
+
+func (h OrchestrationHandler) apiGet(url string, statusKey string) (interface{}, []byte, error) {
+ // prepare and DEL API
+ request, err := http.NewRequest("GET", url, nil)
+ if err != nil {
+ return nil, nil, err
+ }
+ resp, err := h.client.Do(request)
+ if err != nil {
+ return nil, nil, err
+ }
+ defer resp.Body.Close()
+
+ // Prepare the response
+ data, _ := ioutil.ReadAll(resp.Body)
+ h.response.payload[statusKey] = data
+ h.response.status[statusKey] = resp.StatusCode
+
+ return resp.StatusCode, data, nil
+}
+
+func (h OrchestrationHandler) apiDel(url string, statusKey string) (interface{}, error) {
+ // prepare and DEL API
+ request, err := http.NewRequest("DELETE", url, nil)
+ if err != nil {
+ return nil, err
+ }
+ resp, err := h.client.Do(request)
+ if err != nil {
+ return nil, err
+ }
+ defer resp.Body.Close()
+
+ // Prepare the response
+ data, _ := ioutil.ReadAll(resp.Body)
+ h.response.payload[statusKey] = data
+ h.response.status[statusKey] = resp.StatusCode
+
+ return resp.StatusCode, nil
+}
+
+func (h OrchestrationHandler) apiPost(jsonLoad []byte, url string, statusKey string) (interface{}, error) {
+ // prepare and POST API
+ request, err := http.NewRequest("POST", url, bytes.NewBuffer(jsonLoad))
+ if err != nil {
+ return nil, err
+ }
+ resp, err := h.client.Do(request)
+ if err != nil {
+ return nil, err
+ }
+ defer resp.Body.Close()
+
+ // Prepare the response
+ data, _ := ioutil.ReadAll(resp.Body)
+ h.response.payload[statusKey] = data
+ h.response.status[statusKey] = resp.StatusCode
+
+ return resp.StatusCode, nil
+}
+
+func (h OrchestrationHandler) apiPostMultipart(jsonLoad []byte,
+ fh *multipart.FileHeader, url string, statusKey string, fileName string) (interface{}, error) {
+ // Open the file
+ file, err := fh.Open()
+ if err != nil {
+ return nil, err
+ }
+ // Close the file later
+ defer file.Close()
+ // Buffer to store our request body as bytes
+ var requestBody bytes.Buffer
+ // Create a multipart writer
+ multiPartWriter := multipart.NewWriter(&requestBody)
+ // Initialize the file field. Arguments are the field name and file name
+ // It returns io.Writer
+ fileWriter, err := multiPartWriter.CreateFormFile("file", fileName)
+ if err != nil {
+ return nil, err
+ }
+ // Copy the actual file content to the field field's writer
+ _, err = io.Copy(fileWriter, file)
+ if err != nil {
+ return nil, err
+ }
+ // Populate other fields
+ fieldWriter, err := multiPartWriter.CreateFormField("metadata")
+ if err != nil {
+ return nil, err
+ }
+
+ _, err = fieldWriter.Write([]byte(jsonLoad))
+ if err != nil {
+ return nil, err
+ }
+
+ // We completed adding the file and the fields, let's close the multipart writer
+ // So it writes the ending boundary
+ multiPartWriter.Close()
+
+ // By now our original request body should have been populated,
+ // so let's just use it with our custom request
+ req, err := http.NewRequest("POST", url, &requestBody)
+ if err != nil {
+ return nil, err
+ }
+ // We need to set the content type from the writer, it includes necessary boundary as well
+ req.Header.Set("Content-Type", multiPartWriter.FormDataContentType())
+
+ // Do the request
+ resp, err := h.client.Do(req)
+ if err != nil {
+ log.Fatalln(err)
+ return nil, err
+ }
+ defer resp.Body.Close()
+ // Prepare the response
+ data, _ := ioutil.ReadAll(resp.Body)
+ h.response.payload[statusKey] = data
+ h.response.status[statusKey] = resp.StatusCode
+
+ return resp.StatusCode, nil
+}
+func (h *OrchestrationHandler) prepTreeReq(vars map[string]string) {
+ // Initialise the project tree with target composite application.
+ h.treeFilter = &treeTraverseFilter{}
+ h.treeFilter.compositeAppName = vars["composite-app-name"]
+ h.treeFilter.compositeAppVersion = vars["version"]
+ h.treeFilter.digName = vars["deployment-intent-group-name"]
+}
+
+func (h *OrchestrationHandler) DelDig(w http.ResponseWriter, r *http.Request) {
+ vars := mux.Vars(r)
+ h.projectName = vars["project-name"]
+ h.treeFilter = nil
+
+ dataPoints := []string{"projectHandler", "compAppHandler",
+ "digpHandler",
+ "placementIntentHandler",
+ "networkIntentHandler"}
+ h.response.status = make(map[string]int)
+ h.response.payload = make(map[string][]byte)
+
+ // Initialise the project tree with target composite application.
+ h.prepTreeReq(vars)
+
+ h.dataRead = &ProjectTree{}
+ retcode := h.constructTree(dataPoints)
+ if retcode != nil {
+ if intval, ok := retcode.(int); ok {
+ w.WriteHeader(intval)
+ } else {
+ w.WriteHeader(500)
+ }
+ return
+ }
+
+ // 1. Call DIG delte workflow
+ fmt.Printf("Delete wflow start")
+ deleteDataPoints := []string{"networkIntentHandler",
+ "placementIntentHandler",
+ "digpHandler"}
+ retcode = h.deleteTree(deleteDataPoints)
+ if retcode != nil {
+ if intval, ok := retcode.(int); ok {
+ w.WriteHeader(intval)
+ } else {
+ w.WriteHeader(500)
+ }
+ return
+ }
+ w.WriteHeader(204)
+}
+
+// Delete service workflow
+func (h *OrchestrationHandler) DelSvc(w http.ResponseWriter, r *http.Request) {
+ vars := mux.Vars(r)
+ h.projectName = vars["project-name"]
+ h.treeFilter = nil
+
+ dataPoints := []string{"projectHandler", "compAppHandler",
+ "digpHandler",
+ "ProfileHandler"}
+ h.response.status = make(map[string]int)
+ h.response.payload = make(map[string][]byte)
+
+ // Initialise the project tree with target composite application.
+ h.prepTreeReq(vars)
+
+ h.dataRead = &ProjectTree{}
+ retcode := h.constructTree(dataPoints)
+ if retcode != nil {
+ if intval, ok := retcode.(int); ok {
+ w.WriteHeader(intval)
+ } else {
+ w.WriteHeader(500)
+ }
+ return
+ }
+ fmt.Printf("tree %+v\n", h.dataRead)
+ // Check if a dig is present in this composite application
+ if len(h.dataRead.compositeAppMap[vars["composite-app-name"]].DigMap) != 0 {
+ w.WriteHeader(409)
+ w.Write([]byte("Non emtpy DIG in service\n"))
+ return
+ }
+
+ // 1. Call delte workflow
+ fmt.Printf("Delete wflow start")
+ deleteDataPoints := []string{"ProfileHandler",
+ "compAppHandler"}
+ retcode = h.deleteTree(deleteDataPoints)
+ if retcode != nil {
+ if intval, ok := retcode.(int); ok {
+ w.WriteHeader(intval)
+ } else {
+ w.WriteHeader(500)
+ }
+ return
+ }
+ w.WriteHeader(204)
+}
+
+func (h *OrchestrationHandler) getData(I orchWorkflow) (interface{}, interface{}) {
+ _, retcode := I.getAnchor()
+ if retcode != 200 {
+ return nil, retcode
+ }
+ dataPointData, retcode := I.getObject()
+ if retcode != 200 {
+ return nil, retcode
+ }
+ return dataPointData, retcode
+}
+
+func (h *OrchestrationHandler) deleteData(I orchWorkflow) (interface{}, interface{}) {
+ _ = I.deleteObject()
+ _ = I.deleteAnchor()
+ return nil, 204 //FIXME
+}
+
+func (h *OrchestrationHandler) deleteTree(dataPoints []string) interface{} {
+ //1. Fetch App data
+ var I orchWorkflow
+ for _, dataPoint := range dataPoints {
+ switch dataPoint {
+ case "projectHandler":
+ temp := &projectHandler{}
+ temp.orchInstance = h
+ I = temp
+ _, retcode := h.deleteData(I)
+ if retcode != 204 {
+ return retcode
+ }
+ break
+ case "compAppHandler":
+ temp := &compAppHandler{}
+ temp.orchInstance = h
+ I = temp
+ _, retcode := h.deleteData(I)
+ if retcode != 204 {
+ return retcode
+ }
+ break
+ case "ProfileHandler":
+ temp := &ProfileHandler{}
+ temp.orchInstance = h
+ I = temp
+ _, retcode := h.deleteData(I)
+ if retcode != 204 {
+ return retcode
+ }
+ break
+ case "digpHandler":
+ temp := &digpHandler{}
+ temp.orchInstance = h
+ I = temp
+ fmt.Printf("delete digp\n")
+ _, retcode := h.deleteData(I)
+ if retcode != 204 {
+ return retcode
+ }
+ break
+ case "placementIntentHandler":
+ temp := &placementIntentHandler{}
+ temp.orchInstance = h
+ I = temp
+ _, retcode := h.deleteData(I)
+ if retcode != 204 {
+ return retcode
+ }
+ break
+ case "networkIntentHandler":
+ temp := &networkIntentHandler{}
+ temp.orchInstance = h
+ I = temp
+ _, retcode := h.deleteData(I)
+ if retcode != 204 {
+ return retcode
+ }
+ break
+ default:
+ fmt.Printf("%s\n", dataPoint)
+ }
+ }
+ return nil
+}
+
+func (h *OrchestrationHandler) constructTree(dataPoints []string) interface{} {
+ //1. Fetch App data
+ var I orchWorkflow
+ for _, dataPoint := range dataPoints {
+ switch dataPoint {
+ case "projectHandler":
+ temp := &projectHandler{}
+ temp.orchInstance = h
+ I = temp
+ _, retcode := h.getData(I)
+ if retcode != 200 {
+ return retcode
+ }
+ break
+ case "compAppHandler":
+ temp := &compAppHandler{}
+ temp.orchInstance = h
+ I = temp
+ _, retcode := h.getData(I)
+ if retcode != 200 {
+ return retcode
+ }
+ break
+ case "ProfileHandler":
+ temp := &ProfileHandler{}
+ temp.orchInstance = h
+ I = temp
+ _, retcode := h.getData(I)
+ if retcode != 200 {
+ return retcode
+ }
+ break
+ case "digpHandler":
+ temp := &digpHandler{}
+ temp.orchInstance = h
+ I = temp
+ _, retcode := h.getData(I)
+ if retcode != 200 {
+ return retcode
+ }
+ break
+ case "placementIntentHandler":
+ temp := &placementIntentHandler{}
+ temp.orchInstance = h
+ I = temp
+ _, retcode := h.getData(I)
+ if retcode != 200 {
+ return retcode
+ }
+ break
+ case "networkIntentHandler":
+ temp := &networkIntentHandler{}
+ temp.orchInstance = h
+ I = temp
+ _, retcode := h.getData(I)
+ if retcode != 200 {
+ return retcode
+ }
+ break
+ default:
+ fmt.Printf("%s\n", dataPoint)
+ }
+ }
+ return nil
+}
+
+// This function partest he compositeapp tree read and populates the
+// Dig tree
+func (h *OrchestrationHandler) copyDigTree() {
+ dataRead := h.dataRead
+ h.DigpReturnJson = nil
+
+ for compositeAppName, value := range dataRead.compositeAppMap {
+ for _, digValue := range dataRead.compositeAppMap[compositeAppName].DigMap {
+ Dig := DigsInProject{}
+ SourceDigMetadata := digValue.DigpData.Metadata
+
+ // Copy the metadata
+ Dig.Metadata.Name = SourceDigMetadata.Name
+ Dig.Metadata.CompositeAppName = compositeAppName
+ Dig.Metadata.CompositeAppVersion = value.Metadata.Spec.Version
+ Dig.Metadata.Description = SourceDigMetadata.Description
+ Dig.Metadata.UserData1 = SourceDigMetadata.UserData1
+ Dig.Metadata.UserData2 = SourceDigMetadata.UserData2
+
+ // Populate the Spec of dig
+ SourceDigSpec := digValue.DigpData.Spec
+ Dig.Spec.DigIntentsData = digValue.DigIntentsData.Intent
+ Dig.Spec.Profile = SourceDigSpec.Profile
+ Dig.Spec.Version = SourceDigSpec.Version
+ Dig.Spec.Lcloud = SourceDigSpec.Lcloud
+ Dig.Spec.OverrideValuesObj = SourceDigSpec.OverrideValuesObj
+
+ // Pupolate the generic placement intents
+ SourceGpintMap := digValue.GpintMap
+ for t, gpintValue := range SourceGpintMap {
+ fmt.Printf("gpName value %s\n", t)
+ localGpint := DigsGpint{}
+ localGpint.Metadata = gpintValue.Gpint.Metadata
+ //localGpint.Spec.AppIntentArray = gpintValue.AppIntentArray
+ localGpint.Spec.AppIntentArray = make([]PlacementIntentExport, len(gpintValue.AppIntentArray))
+ for k, _ := range gpintValue.AppIntentArray {
+ localGpint.Spec.AppIntentArray[k].Metadata = gpintValue.AppIntentArray[k].Metadata
+ localGpint.Spec.AppIntentArray[k].Spec.AppName =
+ gpintValue.AppIntentArray[k].Spec.AppName
+ localGpint.Spec.AppIntentArray[k].Spec.Intent.AllofCluster =
+ make([]AllofExport, len(gpintValue.AppIntentArray[k].Spec.Intent.AllofCluster))
+ for i, _ := range gpintValue.AppIntentArray[k].Spec.Intent.AllofCluster {
+ localGpint.Spec.AppIntentArray[k].Spec.Intent.AllofCluster[i].ProviderName =
+ gpintValue.AppIntentArray[k].Spec.Intent.AllofCluster[i].ProviderName
+ localGpint.Spec.AppIntentArray[k].Spec.Intent.AllofCluster[i].ClusterName =
+ gpintValue.AppIntentArray[k].Spec.Intent.AllofCluster[i].ClusterName
+ }
+ }
+
+ Dig.Spec.GpintArray = append(Dig.Spec.GpintArray, &localGpint)
+ }
+ // Populate the Nwint intents
+ SourceNwintMap := digValue.NwintMap
+ for _, nwintValue := range SourceNwintMap {
+ localNwint := DigsNwint{}
+ localNwint.Metadata = nwintValue.Nwint.Metadata
+ for _, wrkintValue := range nwintValue.WrkintMap {
+ localWrkint := WorkloadIntents{}
+ localWrkint.Metadata = wrkintValue.Wrkint.Metadata
+ localWrkint.Spec.Interfaces = wrkintValue.Interfaces
+ localNwint.Spec.WorkloadIntentsArray = append(localNwint.Spec.WorkloadIntentsArray,
+ &localWrkint)
+ }
+ Dig.Spec.NwintArray = append(Dig.Spec.NwintArray, &localNwint)
+ }
+ h.DigpReturnJson = append(h.DigpReturnJson, Dig)
+ }
+ }
+}
+
+// GetSvc get the entrire tree under project/<composite app>/<version>
+func (h *OrchestrationHandler) GetAllDigs(w http.ResponseWriter, r *http.Request) {
+ vars := mux.Vars(r)
+ h.version = vars["version"]
+ h.projectName = vars["project-name"]
+ h.response.status = make(map[string]int)
+ h.response.payload = make(map[string][]byte)
+ dataPoints := []string{"projectHandler", "compAppHandler",
+ "digpHandler",
+ "placementIntentHandler",
+ "networkIntentHandler"}
+
+ h.dataRead = &ProjectTree{}
+ h.treeFilter = nil
+ retcode := h.constructTree(dataPoints)
+ if retcode != nil {
+ if intval, ok := retcode.(int); ok {
+ w.WriteHeader(intval)
+ } else {
+ w.WriteHeader(500)
+ }
+ return
+ }
+ // copy dig tree
+ h.copyDigTree()
+ retval, _ := json.Marshal(h.DigpReturnJson)
+ w.Header().Set("Content-Type", "application/json")
+ w.WriteHeader(200)
+ w.Write(retval)
+}
+
+// GetSvc get the entrire tree under project/<composite app>/<version>
+func (h *OrchestrationHandler) GetSvc(w http.ResponseWriter, r *http.Request) {
+ vars := mux.Vars(r)
+ h.treeFilter = nil
+ h.compositeAppName = vars["composite-app-name"]
+ h.version = vars["version"]
+ h.projectName = vars["project-name"]
+ h.response.status = make(map[string]int)
+ h.response.payload = make(map[string][]byte)
+
+ dataPoints := []string{"compAppHandler", "ProfileHandler",
+ "digpHandler",
+ "placementIntentHandler",
+ "networkIntentHandler"}
+ h.dataRead = &ProjectTree{}
+ retcode := h.constructTree(dataPoints)
+ if retcode != nil {
+ if intval, ok := retcode.(int); ok {
+ w.WriteHeader(intval)
+ } else {
+ w.WriteHeader(500)
+ }
+ return
+ }
+
+ w.Header().Set("Content-Type", "application/json")
+ w.WriteHeader(200)
+}
+
+// CreateApp exported function which creates the composite application
+func (h *OrchestrationHandler) CreateDig(w http.ResponseWriter, r *http.Request) {
+ var jsonData deployDigData
+
+ decoder := json.NewDecoder(r.Body)
+ err := decoder.Decode(&jsonData)
+ if err != nil {
+ log.Printf("Failed to parse json")
+ log.Fatalln(err)
+ }
+
+ h.DigData = jsonData
+
+ if len(h.DigData.Spec.Apps) == 0 {
+ w.WriteHeader(400)
+ w.Write([]byte("Bad request, no app metadata\n"))
+ return
+ }
+
+ h.client = http.Client{}
+
+ // These maps will get populated by the return status and respones of each V2 API
+ // that is called during the execution of the workflow.
+ h.response.payload = make(map[string][]byte)
+ h.response.status = make(map[string]int)
+
+ // 4. Create DIG
+ h.digpIntents = make(map[string]string)
+ h.nwCtlIntents = make(map[string]string)
+ igHandler := &digpHandler{}
+ igHandler.orchInstance = h
+ igpStatus := createDInents(igHandler)
+ if igpStatus != nil {
+ if intval, ok := igpStatus.(int); ok {
+ w.WriteHeader(intval)
+ } else {
+ w.WriteHeader(500)
+ }
+ w.Write(h.response.payload[h.compositeAppName+"_digp"])
+ return
+ }
+
+ // 3. Create intents
+ intentHandler := &placementIntentHandler{}
+ intentHandler.orchInstance = h
+ intentStatus := addPlacementIntent(intentHandler)
+ if intentStatus != nil {
+ if intval, ok := intentStatus.(int); ok {
+ w.WriteHeader(intval)
+ } else {
+ w.WriteHeader(500)
+ }
+ w.Write(h.response.payload[h.compositeAppName+"_gpint"])
+ return
+ }
+
+ // If the metadata contains network interface request then call the
+ // network intent related part of the workflow.
+ if len(h.DigData.Spec.Apps[0].Clusters[0].SelectedClusters[0].Interfaces) != 0 {
+ nwHandler := &networkIntentHandler{}
+ nwHandler.orchInstance = h
+ nwIntentStatus := addNetworkIntent(nwHandler)
+ if nwIntentStatus != nil {
+ if intval, ok := nwIntentStatus.(int); ok {
+ w.WriteHeader(intval)
+ } else {
+ w.WriteHeader(500)
+ }
+ w.Write(h.response.payload[h.compositeAppName+"_nwctlint"])
+ return
+ }
+ }
+
+ w.WriteHeader(201)
+ w.Write(h.response.payload[h.DigData.Name])
+}
+
+func (h *OrchestrationHandler) CreateApp(w http.ResponseWriter, r *http.Request) {
+ var jsonData deployServiceData
+
+ err := r.ParseMultipartForm(16777216)
+ if err != nil {
+ log.Fatalln(err)
+ }
+
+ // Populate the multipart.FileHeader MAP. The key will be the
+ // filename itself. The metadata Map will be keyed on the application
+ // name. The metadata has a field file name, so later we can parse the metadata
+ // Map, and fetch the file headers from this file Map with keys as the filename.
+ h.file = make(map[string]*multipart.FileHeader)
+ for _, v := range r.MultipartForm.File {
+ fh := v[0]
+ h.file[fh.Filename] = fh
+ }
+
+ jsn := ([]byte(r.FormValue("servicePayload")))
+ err = json.Unmarshal(jsn, &jsonData)
+ if err != nil {
+ log.Printf("Failed to parse json")
+ log.Fatalln(err)
+ }
+
+ h.compositeAppName = jsonData.Name
+ h.compositeAppDesc = jsonData.Description
+ h.projectName = jsonData.Spec.ProjectName
+ h.meta = jsonData.Spec.Apps
+
+ // Sanity check. For each metadata there should be a
+ // corresponding file in the multipart request. If it
+ // not found we fail this API call.
+ for i := range h.meta {
+ switch {
+ case h.file[h.meta[i].Metadata.FileName] == nil:
+ t := fmt.Sprintf("File %s not in request", h.meta[i].Metadata.FileName)
+ w.WriteHeader(400)
+ w.Write([]byte(t))
+ fmt.Printf("app file not found\n")
+ return
+ case h.file[h.meta[i].ProfileMetadata.FileName] == nil:
+ t := fmt.Sprintf("File %s not in request", h.meta[i].ProfileMetadata.FileName)
+ w.WriteHeader(400)
+ w.Write([]byte(t))
+ fmt.Printf("profile file not found\n")
+ return
+ default:
+ fmt.Println("Good request")
+ }
+ }
+
+ if len(h.meta) == 0 {
+ w.WriteHeader(400)
+ w.Write([]byte("Bad request, no app metadata\n"))
+ return
+ }
+
+ h.client = http.Client{}
+
+ // These maps will get populated by the return status and respones of each V2 API
+ // that is called during the execution of the workflow.
+ h.response.payload = make(map[string][]byte)
+ h.response.status = make(map[string]int)
+
+ // 1. create the composite application. the compAppHandler implements the
+ // orchWorkflow interface.
+ appHandler := &compAppHandler{}
+ appHandler.orchInstance = h
+ appStatus := createCompositeapp(appHandler)
+ if appStatus != nil {
+ if intval, ok := appStatus.(int); ok {
+ w.WriteHeader(intval)
+ } else {
+ w.WriteHeader(500)
+ }
+ w.Write(h.response.payload[h.compositeAppName])
+ return
+ }
+
+ // 2. create the composite application profiles
+ profileHandler := &ProfileHandler{}
+ profileHandler.orchInstance = h
+ profileStatus := createProfile(profileHandler)
+ if profileStatus != nil {
+ if intval, ok := profileStatus.(int); ok {
+ w.WriteHeader(intval)
+ } else {
+ w.WriteHeader(500)
+ }
+ w.Write(h.response.payload[h.compositeAppName+"_profile"])
+ return
+ }
+
+ w.WriteHeader(201)
+ w.Write(h.response.payload[h.compositeAppName])
+}
+
+func (h *OrchestrationHandler) createCluster(filename string, fh *multipart.FileHeader, clusterName string,
+ jsonData ClusterMetadata) interface{} {
+ url := "http://" + h.MiddleendConf.Clm + "/v2/cluster-providers/" + clusterName + "/clusters"
+
+ jsonLoad, _ := json.Marshal(jsonData)
+
+ status, err := h.apiPostMultipart(jsonLoad, fh, url, clusterName, filename)
+ if err != nil {
+ return err
+ }
+ if status != 201 {
+ return status
+ }
+ fmt.Printf("cluster creation %s status %s\n", clusterName, status)
+ return nil
+}
+
+func (h *OrchestrationHandler) CheckConnection(w http.ResponseWriter, r *http.Request) {
+ vars := mux.Vars(r)
+
+ parse_err := r.ParseMultipartForm(16777216)
+ if parse_err != nil {
+ fmt.Printf("multipart error: %s", parse_err.Error())
+ w.WriteHeader(500)
+ return
+ }
+
+ var fh *multipart.FileHeader
+ for _, v := range r.MultipartForm.File {
+ fh = v[0]
+ }
+ file, err := fh.Open()
+ if err != nil {
+ fmt.Printf("Failed to open the file: %s", err.Error())
+ w.WriteHeader(500)
+ return
+ }
+ defer file.Close()
+
+ // Read the kconfig
+ kubeconfig, _ := ioutil.ReadAll(file)
+
+ jsonData := ClusterMetadata{}
+ jsn := ([]byte(r.FormValue("metadata")))
+ err = json.Unmarshal(jsn, &jsonData)
+ if err != nil {
+ fmt.Printf("Failed to parse json")
+ w.WriteHeader(500)
+ return
+ }
+ fmt.Printf("metadata %+v\n", jsonData)
+
+ // RESTConfigFromKubeConfig is a convenience method to give back
+ // a restconfig from your kubeconfig bytes.
+ config, err := clientcmd.RESTConfigFromKubeConfig(kubeconfig)
+ if err != nil {
+ fmt.Printf("Error while reading the kubeconfig: %s", err.Error())
+ w.WriteHeader(500)
+ return
+ }
+
+ // create the clientset
+ clientset, err := kubernetes.NewForConfig(config)
+ if err != nil {
+ fmt.Printf("Failed to create clientset: %s", err.Error())
+ w.WriteHeader(500)
+ return
+ }
+
+ _, err = clientset.CoreV1().Pods("").List(context.TODO(), metav1.ListOptions{})
+ if err != nil {
+ fmt.Printf("Failed to establish the connection: %s", err.Error())
+ w.WriteHeader(403)
+ w.Write([]byte("Cluster connectivity failed\n"))
+ return
+ }
+
+ fmt.Printf("Successfully established the connection\n")
+ h.client = http.Client{}
+ h.response.status = make(map[string]int)
+ h.response.payload = make(map[string][]byte)
+
+ status := h.createCluster(fh.Filename, fh, vars["cluster-provider-name"], jsonData)
+ if status != nil {
+ w.WriteHeader(500)
+ return
+ }
+
+ w.WriteHeader(200)
+ w.Write(h.response.payload[vars["cluster-provider-name"]])
+ return
+}