portainer/api/http/handler/kubernetes/config.go

203 lines
7.2 KiB
Go

package kubernetes
import (
"errors"
"fmt"
"net/http"
httperror "github.com/portainer/libhttp/error"
"github.com/portainer/libhttp/request"
"github.com/portainer/libhttp/response"
portainer "github.com/portainer/portainer/api"
"github.com/portainer/portainer/api/http/security"
"github.com/portainer/portainer/api/internal/endpointutils"
kcli "github.com/portainer/portainer/api/kubernetes/cli"
clientV1 "k8s.io/client-go/tools/clientcmd/api/v1"
)
// @id GetKubernetesConfig
// @summary Generate a kubeconfig file enabling client communication with k8s api server
// @description Generate a kubeconfig file enabling client communication with k8s api server
// @description **Access policy**: authenticated
// @tags kubernetes
// @security ApiKeyAuth
// @security jwt
// @accept json
// @produce json
// @param ids query []int false "will include only these environments(endpoints)"
// @param excludeIds query []int false "will exclude these environments(endpoints)"
// @success 200 "Success"
// @failure 400 "Invalid request"
// @failure 401 "Unauthorized"
// @failure 403 "Permission denied"
// @failure 404 "Environment(Endpoint) or ServiceAccount not found"
// @failure 500 "Server error"
// @router /kubernetes/config [get]
func (handler *Handler) getKubernetesConfig(w http.ResponseWriter, r *http.Request) *httperror.HandlerError {
tokenData, err := security.RetrieveTokenData(r)
if err != nil {
return httperror.Forbidden("Permission denied to access environment", err)
}
bearerToken, err := handler.JwtService.GenerateTokenForKubeconfig(tokenData)
if err != nil {
return httperror.InternalServerError("Unable to generate JWT token", err)
}
endpoints, handlerErr := handler.filterUserKubeEndpoints(r)
if handlerErr != nil {
return handlerErr
}
if len(endpoints) == 0 {
return httperror.BadRequest("empty endpoints list", errors.New("empty endpoints list"))
}
config, handlerErr := handler.buildConfig(r, tokenData, bearerToken, endpoints, false)
if handlerErr != nil {
return handlerErr
}
return writeFileContent(w, r, endpoints, tokenData, config)
}
func (handler *Handler) filterUserKubeEndpoints(r *http.Request) ([]portainer.Endpoint, *httperror.HandlerError) {
var endpointIDs []portainer.EndpointID
_ = request.RetrieveJSONQueryParameter(r, "ids", &endpointIDs, true)
var excludeEndpointIDs []portainer.EndpointID
_ = request.RetrieveJSONQueryParameter(r, "excludeIds", &excludeEndpointIDs, true)
if len(endpointIDs) > 0 && len(excludeEndpointIDs) > 0 {
return nil, httperror.BadRequest("Can't provide both 'ids' and 'excludeIds' parameters", errors.New("invalid parameters"))
}
securityContext, err := security.RetrieveRestrictedRequestContext(r)
if err != nil {
return nil, httperror.InternalServerError("Unable to retrieve info from request context", err)
}
endpointGroups, err := handler.DataStore.EndpointGroup().ReadAll()
if err != nil {
return nil, httperror.InternalServerError("Unable to retrieve environment groups from the database", err)
}
if len(endpointIDs) > 0 {
var endpoints []portainer.Endpoint
for _, endpointID := range endpointIDs {
endpoint, err := handler.DataStore.Endpoint().Endpoint(endpointID)
if err != nil {
return nil, httperror.InternalServerError("Unable to retrieve environment from the database", err)
}
if !endpointutils.IsKubernetesEndpoint(endpoint) {
continue
}
endpoints = append(endpoints, *endpoint)
}
filteredEndpoints := security.FilterEndpoints(endpoints, endpointGroups, securityContext)
return filteredEndpoints, nil
}
var kubeEndpoints []portainer.Endpoint
endpoints, err := handler.DataStore.Endpoint().Endpoints()
if err != nil {
return nil, httperror.InternalServerError("Unable to retrieve environments from the database", err)
}
for _, endpoint := range endpoints {
if !endpointutils.IsKubernetesEndpoint(&endpoint) {
continue
}
kubeEndpoints = append(kubeEndpoints, endpoint)
}
filteredEndpoints := security.FilterEndpoints(kubeEndpoints, endpointGroups, securityContext)
if len(excludeEndpointIDs) > 0 {
filteredEndpoints = endpointutils.FilterByExcludeIDs(filteredEndpoints, excludeEndpointIDs)
}
return filteredEndpoints, nil
}
func (handler *Handler) buildConfig(r *http.Request, tokenData *portainer.TokenData, bearerToken string, endpoints []portainer.Endpoint, isInternal bool) (*clientV1.Config, *httperror.HandlerError) {
configClusters := make([]clientV1.NamedCluster, len(endpoints))
configContexts := make([]clientV1.NamedContext, len(endpoints))
var configAuthInfos []clientV1.NamedAuthInfo
authInfosSet := make(map[string]bool)
for idx, endpoint := range endpoints {
instanceID := handler.KubernetesClientFactory.GetInstanceID()
serviceAccountName := kcli.UserServiceAccountName(int(tokenData.ID), instanceID)
configClusters[idx] = handler.buildCluster(r, endpoint, isInternal)
configContexts[idx] = buildContext(serviceAccountName, endpoint)
if !authInfosSet[serviceAccountName] {
configAuthInfos = append(configAuthInfos, buildAuthInfo(serviceAccountName, bearerToken))
authInfosSet[serviceAccountName] = true
}
}
return &clientV1.Config{
APIVersion: "v1",
Kind: "Config",
Clusters: configClusters,
Contexts: configContexts,
CurrentContext: configContexts[0].Name,
AuthInfos: configAuthInfos,
}, nil
}
// buildCluster builds a Kubernetes cluster configuration based on the endpoint and if it's used internally or externally.
func (handler *Handler) buildCluster(r *http.Request, endpoint portainer.Endpoint, isInternal bool) clientV1.NamedCluster {
kubeConfigInternal := handler.kubeClusterAccessService.GetClusterDetails(r.Host, endpoint.ID, isInternal)
return clientV1.NamedCluster{
Name: buildClusterName(endpoint.Name),
Cluster: clientV1.Cluster{
Server: kubeConfigInternal.ClusterServerURL,
InsecureSkipTLSVerify: true,
},
}
}
func buildClusterName(endpointName string) string {
return fmt.Sprintf("portainer-cluster-%s", endpointName)
}
func buildContext(serviceAccountName string, endpoint portainer.Endpoint) clientV1.NamedContext {
contextName := fmt.Sprintf("portainer-ctx-%s", endpoint.Name)
return clientV1.NamedContext{
Name: contextName,
Context: clientV1.Context{
AuthInfo: serviceAccountName,
Cluster: buildClusterName(endpoint.Name),
},
}
}
func buildAuthInfo(serviceAccountName string, bearerToken string) clientV1.NamedAuthInfo {
return clientV1.NamedAuthInfo{
Name: serviceAccountName,
AuthInfo: clientV1.AuthInfo{
Token: bearerToken,
},
}
}
func writeFileContent(w http.ResponseWriter, r *http.Request, endpoints []portainer.Endpoint, tokenData *portainer.TokenData, config *clientV1.Config) *httperror.HandlerError {
filenameSuffix := "kubeconfig"
if len(endpoints) == 1 {
filenameSuffix = endpoints[0].Name
}
filenameBase := fmt.Sprintf("%s-%s", tokenData.Username, filenameSuffix)
if r.Header.Get("Accept") == "text/yaml" {
yaml, err := kcli.GenerateYAML(config)
if err != nil {
return httperror.InternalServerError("Failed to generate Kubeconfig", err)
}
w.Header().Set("Content-Disposition", fmt.Sprintf("attachment; %s.yaml", filenameBase))
return response.YAML(w, yaml)
}
w.Header().Set("Content-Disposition", fmt.Sprintf("attachment; %s.json", filenameBase))
return response.JSON(w, config)
}