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kapp.go
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kapp.go
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// Copyright 2020 VMware, Inc.
// SPDX-License-Identifier: Apache-2.0
package deploy
import (
"bytes"
"errors"
"fmt"
"os"
goexec "os/exec"
"path/filepath"
"strings"
"time"
"github.com/vmware-tanzu/carvel-kapp-controller/pkg/apis/kappctrl/v1alpha1"
"github.com/vmware-tanzu/carvel-kapp-controller/pkg/exec"
"github.com/vmware-tanzu/carvel-kapp-controller/pkg/kubeconfig"
"github.com/vmware-tanzu/carvel-kapp-controller/pkg/memdir"
"sigs.k8s.io/yaml"
)
const (
// TODO not a great way to determine whether
// kapp found changes and started to apply them
applyOutputMarker = " ---- applying "
)
type Kapp struct {
appSuffix string
opts v1alpha1.AppDeployKapp
clusterAccess kubeconfig.AccessInfo
globalDeployRawOpts []string
cancelCh chan struct{}
cmdRunner exec.CmdRunner
appMeta *Meta
appNamespace string
}
var _ Deploy = &Kapp{}
// NewKapp takes the kapp yaml from spec.deploy.kapp as arg kapp,
// additional info from the larger app resource (e.g. service account, name, namespace) as genericOpts,
// and a cancel channel that gets passed through to the exec call that runs kapp.
func NewKapp(appSuffix string, opts v1alpha1.AppDeployKapp, clusterAccess kubeconfig.AccessInfo,
globalDeployRawOpts []string, cancelCh chan struct{}, cmdRunner exec.CmdRunner, appNamespace string) *Kapp {
return &Kapp{appSuffix, opts, clusterAccess, globalDeployRawOpts, cancelCh, cmdRunner, nil, appNamespace}
}
// Deploy takes the output from templating, and the app name,
// it shells out, running kapp deploy ...
func (a *Kapp) Deploy(tplOutput string, startedApplyingFunc func(),
changedFunc func(exec.CmdRunResult)) exec.CmdRunResult {
tmpMetadataDir := memdir.NewTmpDir("app_metadata")
defer tmpMetadataDir.Remove()
err := tmpMetadataDir.Create()
if err != nil {
return exec.NewCmdRunResultWithErr(err)
}
metadataFile := filepath.Join(tmpMetadataDir.Path(), "app-metadata.yml")
args, err := a.addDeployArgs([]string{"deploy", "--app-metadata-file-output", metadataFile, "--prev-app", a.oldManagedName(), "-f", "-"})
if err != nil {
return exec.NewCmdRunResultWithErr(err)
}
args, env := a.addGenericArgs(args, a.clusterAccess.Name+a.appSuffix)
cmd := goexec.Command("kapp", args...)
cmd.Env = append(os.Environ(), env...)
cmd.Stdin = strings.NewReader(tplOutput)
resultBuf, doneTrackingOutputCh := a.trackCmdOutput(cmd, startedApplyingFunc, changedFunc)
err = a.cmdRunner.RunWithCancel(cmd, a.cancelCh)
close(doneTrackingOutputCh)
result := resultBuf.Copy()
result.AttachErrorf("Deploying: %s", err)
a.appMeta = nil
a.trySaveAppMeta(metadataFile)
return result
}
// Delete takes the app name, it shells out, running kapp delete ...
func (a *Kapp) Delete(startedApplyingFunc func(), changedFunc func(exec.CmdRunResult)) exec.CmdRunResult {
args, err := a.addDeleteArgs([]string{"delete", "--prev-app", a.oldManagedName()})
if err != nil {
return exec.NewCmdRunResultWithErr(err)
}
args, env := a.addGenericArgs(args, a.clusterAccess.Name+a.appSuffix)
cmd := goexec.Command("kapp", args...)
cmd.Env = append(os.Environ(), env...)
resultBuf, doneTrackingOutputCh := a.trackCmdOutput(cmd, startedApplyingFunc, changedFunc)
err = a.cmdRunner.RunWithCancel(cmd, a.cancelCh)
close(doneTrackingOutputCh)
result := resultBuf.Copy()
result.AttachErrorf("Deleting: %s", err)
return result
}
// Inspect takes the app name, it shells out, running kapp inspect ...
func (a *Kapp) Inspect() exec.CmdRunResult {
args, err := a.addInspectArgs([]string{
"inspect",
// PodMetrics rapidly get/created and removed, hence lets hide them
// to avoid resource update churn
// TODO is there a better way to deal with this?
"--filter", `{"not":{"resource":{"kinds":["PodMetrics"]}}}`,
"--tty",
})
if err != nil {
return exec.NewCmdRunResultWithErr(err)
}
args, env := a.addGenericArgs(args, a.clusterAccess.Name+a.appSuffix)
var stdoutBs, stderrBs bytes.Buffer
cmd := goexec.Command("kapp", args...)
cmd.Env = append(os.Environ(), env...)
cmd.Stdout = &stdoutBs
cmd.Stderr = &stderrBs
err = a.cmdRunner.RunWithCancel(cmd, a.cancelCh)
result := exec.CmdRunResult{
Stdout: stdoutBs.String(),
Stderr: stderrBs.String(),
}
result.AttachErrorf("Inspecting: %s", err)
return result
}
// Meta contains app meta allowing for an AppCR to surface the associated namespaces and GKs
type Meta struct {
LabelKey string `yaml:"labelKey"`
LabelValue string `yaml:"labelValue"`
LastChange struct {
Namespaces []string `yaml:"namespaces"`
} `yaml:"lastChange"`
UsedGKs []struct {
Group string `yaml:"Group"`
Kind string `yaml:"Kind"`
} `yaml:"usedGKs"`
}
// InternalAppMeta exposes the internal configmap kapp maintains on every app deploy
func (a *Kapp) InternalAppMeta() (*Meta, error) {
if a.appMeta == nil {
return nil, errors.New("Unable to retrieve kapp internal config map")
}
return a.appMeta, nil
}
func (a *Kapp) trackCmdOutput(cmd *goexec.Cmd, startedApplyingFunc func(),
changedFunc func(exec.CmdRunResult)) (*CmdRunResultBuffer, chan struct{}) {
liveResult := NewCmdRunResultBuffer()
doneCh := make(chan struct{})
cmd.Stdout = WriterFunc(liveResult.WriteStdout)
cmd.Stderr = WriterFunc(liveResult.WriteStderr)
// Serialize status updates
go func() {
check := time.NewTicker(2 * time.Second)
defer check.Stop()
for {
select {
case <-check.C:
resultCopy := liveResult.Copy()
changedFunc(resultCopy)
if strings.Contains(resultCopy.Stdout, applyOutputMarker) {
startedApplyingFunc()
}
case <-doneCh:
return
}
}
}()
return liveResult, doneCh
}
// This is the old naming schema for KC owned kapp apps.
// The new convention is x.app for AppCRs / PKGIs and x.pkgr for PackageRepositories.
func (a *Kapp) oldManagedName() string { return a.clusterAccess.Name + "-ctrl" }
func (a *Kapp) addDeployArgs(args []string) ([]string, error) {
if len(a.opts.IntoNs) > 0 {
args = append(args, []string{"--into-ns", a.opts.IntoNs}...)
}
for _, val := range a.opts.MapNs {
args = append(args, []string{"--map-ns", val}...)
}
// Global raw options are applied first to be able to override them within an App
args, err := a.addRawOpts(args, a.globalDeployRawOpts, kappAllowedDeployFlagSet)
if err != nil {
return nil, err
}
return a.addRawOpts(args, a.opts.RawOptions, kappAllowedDeployFlagSet)
}
func (a *Kapp) addDeleteArgs(args []string) ([]string, error) {
if a.opts.Delete != nil {
return a.addRawOpts(args, a.opts.Delete.RawOptions, kappAllowedDeleteFlagSet)
}
return args, nil
}
func (a *Kapp) addInspectArgs(args []string) ([]string, error) {
if a.opts.Inspect != nil {
return a.addRawOpts(args, a.opts.Inspect.RawOptions, kappAllowedInspectFlagSet)
}
return args, nil
}
func (a *Kapp) addRawOpts(args []string, opts []string, allowedFlagSet exec.FlagSet) ([]string, error) {
for _, opt := range opts {
flag, err := exec.NewFlagFromString(opt)
if err != nil {
return nil, err
}
if allowedFlagSet.Includes(flag.Name) {
args = append(args, opt)
} else {
return nil, fmt.Errorf("Unexpected flag '%s' specified (either forbidden or unknown)", flag.Name)
}
}
return args, nil
}
func (a *Kapp) addGenericArgs(args []string, appName string) ([]string, []string) {
args = append(args, []string{"--app", appName}...)
env := []string{}
if len(a.clusterAccess.Namespace) > 0 {
args = append(args, []string{"--namespace", a.clusterAccess.Namespace}...)
}
if len(a.clusterAccess.DeployNamespace) > 0 {
args = append(args, []string{"--app-namespace", a.clusterAccess.DeployNamespace}...)
}
switch {
case a.clusterAccess.Kubeconfig != nil:
env = append(env, "KAPP_KUBECONFIG_YAML="+a.clusterAccess.Kubeconfig.AsYAML())
args = append(args, "--kubeconfig=/dev/null") // not used due to above env var
case a.clusterAccess.DangerousUsePodServiceAccount:
// do nothing
default:
panic("Internal inconsistency: Unknown kapp service account configuration")
}
args = append(args, "--yes")
return args, env
}
// trySaveAppMeta if unable to save the kapp configmap metadata, then continue and do not fail the deploy.
func (a *Kapp) trySaveAppMeta(metadataFileName string) {
metadataFile, err := os.ReadFile(metadataFileName)
if err != nil {
return
}
appMetadata := Meta{}
err = yaml.Unmarshal(metadataFile, &appMetadata)
if err != nil {
return
}
a.appMeta = &appMetadata
}