open-vault/command/kv_get.go

244 lines
5.7 KiB
Go

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package command
import (
"fmt"
"path"
"strings"
"github.com/mitchellh/cli"
"github.com/posener/complete"
)
var (
_ cli.Command = (*KVGetCommand)(nil)
_ cli.CommandAutocomplete = (*KVGetCommand)(nil)
)
type KVGetCommand struct {
*BaseCommand
flagVersion int
flagMount string
}
func (c *KVGetCommand) Synopsis() string {
return "Retrieves data from the KV store"
}
func (c *KVGetCommand) Help() string {
helpText := `
Usage: vault kv get [options] KEY
Retrieves the value from Vault's key-value store at the given key name. If no
key exists with that name, an error is returned. If a key exists with that
name but has no data, nothing is returned.
$ vault kv get -mount=secret foo
The deprecated path-like syntax can also be used, but this should be avoided
for KV v2, as the fact that it is not actually the full API path to
the secret (secret/data/foo) can cause confusion:
$ vault kv get secret/foo
To view the given key name at a specific version in time, specify the "-version"
flag:
$ vault kv get -mount=secret -version=1 foo
Additional flags and more advanced use cases are detailed below.
` + c.Flags().Help()
return strings.TrimSpace(helpText)
}
func (c *KVGetCommand) Flags() *FlagSets {
set := c.flagSet(FlagSetHTTP | FlagSetOutputField | FlagSetOutputFormat)
// Common Options
f := set.NewFlagSet("Common Options")
f.IntVar(&IntVar{
Name: "version",
Target: &c.flagVersion,
Default: 0,
Usage: `If passed, the value at the version number will be returned.`,
})
f.StringVar(&StringVar{
Name: "mount",
Target: &c.flagMount,
Default: "", // no default, because the handling of the next arg is determined by whether this flag has a value
Usage: `Specifies the path where the KV backend is mounted. If specified,
the next argument will be interpreted as the secret path. If this flag is
not specified, the next argument will be interpreted as the combined mount
path and secret path, with /data/ automatically appended between KV
v2 secrets.`,
})
return set
}
func (c *KVGetCommand) AutocompleteArgs() complete.Predictor {
return c.PredictVaultFiles()
}
func (c *KVGetCommand) AutocompleteFlags() complete.Flags {
return c.Flags().Completions()
}
func (c *KVGetCommand) Run(args []string) int {
f := c.Flags()
if err := f.Parse(args); err != nil {
c.UI.Error(err.Error())
return 1
}
args = f.Args()
switch {
case len(args) < 1:
c.UI.Error(fmt.Sprintf("Not enough arguments (expected 1, got %d)", len(args)))
return 1
case len(args) > 1:
c.UI.Error(fmt.Sprintf("Too many arguments (expected 1, got %d)", len(args)))
return 1
}
client, err := c.Client()
if err != nil {
c.UI.Error(err.Error())
return 2
}
// If true, we're working with "-mount=secret foo" syntax.
// If false, we're using "secret/foo" syntax.
mountFlagSyntax := c.flagMount != ""
var (
mountPath string
v2 bool
)
// Ignore leading slash
partialPath := strings.TrimPrefix(args[0], "/")
// Parse the paths and grab the KV version
if mountFlagSyntax {
// In this case, this arg is the secret path (e.g. "foo").
mountPath, v2, err = isKVv2(sanitizePath(c.flagMount), client)
if err != nil {
c.UI.Error(err.Error())
return 2
}
if v2 {
partialPath = path.Join(mountPath, partialPath)
}
} else {
// In this case, this arg is a path-like combination of mountPath/secretPath.
// (e.g. "secret/foo")
mountPath, v2, err = isKVv2(partialPath, client)
if err != nil {
c.UI.Error(err.Error())
return 2
}
}
var versionParam map[string]string
var fullPath string
// Add /data to v2 paths only
if v2 {
fullPath = addPrefixToKVPath(partialPath, mountPath, "data", false)
if c.flagVersion > 0 {
versionParam = map[string]string{
"version": fmt.Sprintf("%d", c.flagVersion),
}
}
} else {
// v1
if mountFlagSyntax {
fullPath = path.Join(mountPath, partialPath)
} else {
fullPath = partialPath
}
}
secret, err := kvReadRequest(client, fullPath, versionParam)
if err != nil {
c.UI.Error(fmt.Sprintf("Error reading %s: %s", fullPath, err))
if secret != nil {
OutputSecret(c.UI, secret)
}
return 2
}
if secret == nil {
c.UI.Error(fmt.Sprintf("No value found at %s", fullPath))
return 2
}
if c.flagField != "" {
if v2 {
// This is a v2, pass in the data field
if data, ok := secret.Data["data"]; ok && data != nil {
// If they requested a literal "data" see if they meant actual
// value or the data block itself
if c.flagField == "data" {
if dataMap, ok := data.(map[string]interface{}); ok {
if _, ok := dataMap["data"]; ok {
return PrintRawField(c.UI, dataMap, c.flagField)
}
}
return PrintRawField(c.UI, secret, c.flagField)
}
return PrintRawField(c.UI, data, c.flagField)
} else {
c.UI.Error(fmt.Sprintf("No data found at %s", fullPath))
return 2
}
} else {
return PrintRawField(c.UI, secret, c.flagField)
}
}
// If we have wrap info print the secret normally.
if secret.WrapInfo != nil || c.flagFormat != "table" {
return OutputSecret(c.UI, secret)
}
if len(secret.Warnings) > 0 {
tf := TableFormatter{}
tf.printWarnings(c.UI, secret)
}
if v2 {
outputPath(c.UI, fullPath, "Secret Path")
}
if metadata, ok := secret.Data["metadata"]; ok && metadata != nil {
c.UI.Info(getHeaderForMap("Metadata", metadata.(map[string]interface{})))
OutputData(c.UI, metadata)
c.UI.Info("")
}
data := secret.Data
if v2 && data != nil {
data = nil
dataRaw := secret.Data["data"]
if dataRaw != nil {
data = dataRaw.(map[string]interface{})
}
}
if data != nil {
c.UI.Info(getHeaderForMap("Data", data))
OutputData(c.UI, data)
}
return 0
}