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deb.open-vault/command/pki_reissue_intermediate.go

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// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package command
import (
"crypto/ecdsa"
"crypto/elliptic"
"crypto/rsa"
"crypto/x509"
"encoding/hex"
"fmt"
"io"
"net"
"net/url"
"os"
"strings"
"github.com/posener/complete"
)
type PKIReIssueCACommand struct {
*BaseCommand
flagConfig string
flagReturnIndicator string
flagDefaultDisabled bool
flagList bool
flagKeyStorageSource string
flagNewIssuerName string
}
func (c *PKIReIssueCACommand) Synopsis() string {
return "Uses a parent certificate and a template certificate to create a new issuer on a child mount"
}
func (c *PKIReIssueCACommand) Help() string {
helpText := `
Usage: vault pki reissue PARENT TEMPLATE CHILD_MOUNT options
`
return strings.TrimSpace(helpText)
}
func (c *PKIReIssueCACommand) Flags() *FlagSets {
set := c.flagSet(FlagSetHTTP | FlagSetOutputFormat)
f := set.NewFlagSet("Command Options")
f.StringVar(&StringVar{
Name: "type",
Target: &c.flagKeyStorageSource,
Default: "internal",
EnvVar: "",
Usage: `Options are “existing” - to use an existing key inside vault, “internal” - to generate a new key inside vault, or “kms” - to link to an external key. Exported keys are not available through this API.`,
Completion: complete.PredictSet("internal", "existing", "kms"),
})
f.StringVar(&StringVar{
Name: "issuer_name",
Target: &c.flagNewIssuerName,
Default: "",
EnvVar: "",
Usage: `If present, the newly created issuer will be given this name`,
})
return set
}
func (c *PKIReIssueCACommand) Run(args []string) int {
// Parse Args
f := c.Flags()
if err := f.Parse(args); err != nil {
c.UI.Error(err.Error())
return 1
}
args = f.Args()
if len(args) < 3 {
c.UI.Error("Not enough arguments: expected parent issuer and child-mount location and some key_value argument")
return 1
}
stdin := (io.Reader)(os.Stdin)
userData, err := parseArgsData(stdin, args[3:])
if err != nil {
c.UI.Error(fmt.Sprintf("Failed to parse K=V data: %s", err))
return 1
}
// Check We Have a Client
client, err := c.Client()
if err != nil {
c.UI.Error(fmt.Sprintf("Failed to obtain client: %v", err))
return 1
}
parentIssuer := sanitizePath(args[0]) // /pki/issuer/default
templateIssuer := sanitizePath(args[1])
intermediateMount := sanitizePath(args[2])
templateIssuerBundle, err := readIssuer(client, templateIssuer)
if err != nil {
c.UI.Error(fmt.Sprintf("Error fetching template certificate %v : %v", templateIssuer, err))
return 1
}
certificate := templateIssuerBundle.certificate
useExistingKey := c.flagKeyStorageSource == "existing"
keyRef := ""
if useExistingKey {
keyRef = templateIssuerBundle.keyId
if keyRef == "" {
c.UI.Error(fmt.Sprintf("Template issuer %s did not have a key id field set in response which is required", templateIssuer))
return 1
}
}
templateData, err := parseTemplateCertificate(*certificate, useExistingKey, keyRef)
data := updateTemplateWithData(templateData, userData)
return pkiIssue(c.BaseCommand, parentIssuer, intermediateMount, c.flagNewIssuerName, c.flagKeyStorageSource, data)
}
func updateTemplateWithData(template map[string]interface{}, changes map[string]interface{}) map[string]interface{} {
data := map[string]interface{}{}
for key, value := range template {
data[key] = value
}
// ttl and not_after set the same thing. Delete template ttl if using not_after:
if _, ok := changes["not_after"]; ok {
delete(data, "ttl")
}
// If we are updating the key_type, do not set key_bits
if _, ok := changes["key_type"]; ok && changes["key_type"] != template["key_type"] {
delete(data, "key_bits")
}
for key, value := range changes {
data[key] = value
}
return data
}
func parseTemplateCertificate(certificate x509.Certificate, useExistingKey bool, keyRef string) (templateData map[string]interface{}, err error) {
// Generate Certificate Signing Parameters
templateData = map[string]interface{}{
"common_name": certificate.Subject.CommonName,
"alt_names": makeAltNamesCommaSeparatedString(certificate.DNSNames, certificate.EmailAddresses),
"ip_sans": makeIpAddressCommaSeparatedString(certificate.IPAddresses),
"uri_sans": makeUriCommaSeparatedString(certificate.URIs),
// other_sans (string: "") - Specifies custom OID/UTF8-string SANs. These must match values specified on the role in allowed_other_sans (see role creation for allowed_other_sans globbing rules). The format is the same as OpenSSL: <oid>;<type>:<value> where the only current valid type is UTF8. This can be a comma-delimited list or a JSON string slice.
// Punting on Other_SANs, shouldn't really be on CAs
"signature_bits": findSignatureBits(certificate.SignatureAlgorithm),
"exclude_cn_from_sans": determineExcludeCnFromSans(certificate),
"ou": certificate.Subject.OrganizationalUnit,
"organization": certificate.Subject.Organization,
"country": certificate.Subject.Country,
"locality": certificate.Subject.Locality,
"province": certificate.Subject.Province,
"street_address": certificate.Subject.StreetAddress,
"postal_code": certificate.Subject.PostalCode,
"serial_number": certificate.Subject.SerialNumber,
"ttl": (certificate.NotAfter.Sub(certificate.NotBefore)).String(),
"max_path_length": certificate.MaxPathLen,
"permitted_dns_domains": strings.Join(certificate.PermittedDNSDomains, ","),
"use_pss": isPSS(certificate.SignatureAlgorithm),
}
if useExistingKey {
templateData["skid"] = hex.EncodeToString(certificate.SubjectKeyId) // TODO: Double Check this with someone
if keyRef == "" {
return nil, fmt.Errorf("unable to create certificate template for existing key without a key_id")
}
templateData["key_ref"] = keyRef
} else {
templateData["key_type"] = getKeyType(certificate.PublicKeyAlgorithm.String())
templateData["key_bits"] = findBitLength(certificate.PublicKey)
}
return templateData, nil
}
func isPSS(algorithm x509.SignatureAlgorithm) bool {
switch algorithm {
case x509.SHA384WithRSAPSS, x509.SHA512WithRSAPSS, x509.SHA256WithRSAPSS:
return true
default:
return false
}
}
func makeAltNamesCommaSeparatedString(names []string, emails []string) string {
return strings.Join(names, ",") + "," + strings.Join(emails, ",")
}
func makeUriCommaSeparatedString(uris []*url.URL) string {
stringAddresses := make([]string, len(uris))
for i, uri := range uris {
stringAddresses[i] = uri.String()
}
return strings.Join(stringAddresses, ",")
}
func makeIpAddressCommaSeparatedString(addresses []net.IP) string {
stringAddresses := make([]string, len(addresses))
for i, address := range addresses {
stringAddresses[i] = address.String()
}
return strings.Join(stringAddresses, ",")
}
func determineExcludeCnFromSans(certificate x509.Certificate) bool {
cn := certificate.Subject.CommonName
if cn == "" {
return false
}
emails := certificate.EmailAddresses
for _, email := range emails {
if email == cn {
return false
}
}
dnses := certificate.DNSNames
for _, dns := range dnses {
if dns == cn {
return false
}
}
return true
}
func findBitLength(publicKey any) int {
if publicKey == nil {
return 0
}
switch pub := publicKey.(type) {
case *rsa.PublicKey:
return pub.N.BitLen()
case *ecdsa.PublicKey:
switch pub.Curve {
case elliptic.P224():
return 224
case elliptic.P256():
return 256
case elliptic.P384():
return 384
case elliptic.P521():
return 521
default:
return 0
}
default:
return 0
}
}
func findSignatureBits(algo x509.SignatureAlgorithm) int {
switch algo {
case x509.MD2WithRSA, x509.MD5WithRSA, x509.SHA1WithRSA, x509.DSAWithSHA1, x509.ECDSAWithSHA1:
return -1
case x509.SHA256WithRSA, x509.DSAWithSHA256, x509.ECDSAWithSHA256, x509.SHA256WithRSAPSS:
return 256
case x509.SHA384WithRSA, x509.ECDSAWithSHA384, x509.SHA384WithRSAPSS:
return 384
case x509.SHA512WithRSA, x509.SHA512WithRSAPSS, x509.ECDSAWithSHA512:
return 512
case x509.PureEd25519:
return 0
default:
return -1
}
}
func getKeyType(goKeyType string) string {
switch goKeyType {
case "RSA":
return "rsa"
case "ECDSA":
return "ec"
case "Ed25519":
return "ed25519"
default:
return ""
}
}
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