open-vault/command/pki_verify_sign_test.go
Hamid Ghaf 27bb03bbc0
adding copyright header (#19555)
* adding copyright header

* fix fmt and a test
2023-03-15 09:00:52 -07:00

469 lines
15 KiB
Go

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package command
import (
"bytes"
"context"
"encoding/json"
"fmt"
"strings"
"testing"
"github.com/hashicorp/vault/api"
)
func TestPKIVerifySign(t *testing.T) {
t.Parallel()
client, closer := testVaultServer(t)
defer closer()
// Relationship Map to Create
// pki-root | pki-newroot | pki-empty
// RootX1 RootX2 RootX4 RootX3
// | |
// ----------------------------------------------
// v v
// IntX1 IntX2 pki-int
// | |
// v v
// IntX3 (-----------------------) IntX3
//
// Here X1,X2 have the same name (same mount)
// RootX4 uses the same key as RootX1 (but a different common_name/subject)
// RootX3 has the same name, and is on a different mount
// RootX1 has issued IntX1; RootX3 has issued IntX2
createComplicatedIssuerSetUp(t, client)
runPkiVerifySignTests(t, client)
}
func runPkiVerifySignTests(t *testing.T, client *api.Client) {
cases := []struct {
name string
args []string
expectedMatches map[string]bool
jsonOut bool
shouldError bool
expectErrorCont string
expectErrorNotCont string
nonJsonOutputCont string
}{
{
"rootX1-matches-rootX1",
[]string{"pki", "verify-sign", "-format=json", "pki-root/issuer/rootX1", "pki-root/issuer/rootX1"},
map[string]bool{
"key_id_match": true,
"path_match": true,
"signature_match": true,
"subject_match": true,
"trust_match": true,
},
true,
false,
"",
"",
"",
},
{
"rootX1-on-rootX2-onlySameName",
[]string{"pki", "verify-sign", "-format=json", "pki-root/issuer/rootX1", "pki-root/issuer/rootX2"},
map[string]bool{
"key_id_match": false,
"path_match": false,
"signature_match": false,
"subject_match": true,
"trust_match": false,
},
true,
false,
"",
"",
"",
},
}
for _, testCase := range cases {
var errString string
var results map[string]interface{}
var stdOut string
if testCase.jsonOut {
results, errString = execPKIVerifyJson(t, client, false, testCase.shouldError, testCase.args)
} else {
stdOut, errString = execPKIVerifyNonJson(t, client, testCase.shouldError, testCase.args)
}
// Verify Error Behavior
if testCase.shouldError {
if errString == "" {
t.Fatalf("Expected error in Testcase %s : no error produced, got results %s", testCase.name, results)
}
if testCase.expectErrorCont != "" && !strings.Contains(errString, testCase.expectErrorCont) {
t.Fatalf("Expected error in Testcase %s to contain %s, but got error %s", testCase.name, testCase.expectErrorCont, errString)
}
if testCase.expectErrorNotCont != "" && strings.Contains(errString, testCase.expectErrorNotCont) {
t.Fatalf("Expected error in Testcase %s to not contain %s, but got error %s", testCase.name, testCase.expectErrorNotCont, errString)
}
} else {
if errString != "" {
t.Fatalf("Error in Testcase %s : no error expected, but got error: %s", testCase.name, errString)
}
}
// Verify Output
if testCase.jsonOut {
isMatch, errString := verifyExpectedJson(testCase.expectedMatches, results)
if !isMatch {
t.Fatalf("Expected Results for Testcase %s, do not match returned results %s", testCase.name, errString)
}
} else {
if !strings.Contains(stdOut, testCase.nonJsonOutputCont) {
t.Fatalf("Expected standard output for Testcase %s to contain %s, but got %s", testCase.name, testCase.nonJsonOutputCont, stdOut)
}
}
}
}
func execPKIVerifyJson(t *testing.T, client *api.Client, expectErrorUnmarshalling bool, expectErrorOut bool, callArgs []string) (map[string]interface{}, string) {
stdout, stderr := execPKIVerifyNonJson(t, client, expectErrorOut, callArgs)
var results map[string]interface{}
if err := json.Unmarshal([]byte(stdout), &results); err != nil && !expectErrorUnmarshalling {
t.Fatalf("failed to decode json response : %v \n json: \n%v", err, stdout)
}
return results, stderr
}
func execPKIVerifyNonJson(t *testing.T, client *api.Client, expectErrorOut bool, callArgs []string) (string, string) {
stdout := bytes.NewBuffer(nil)
stderr := bytes.NewBuffer(nil)
runOpts := &RunOptions{
Stdout: stdout,
Stderr: stderr,
Client: client,
}
code := RunCustom(callArgs, runOpts)
if !expectErrorOut && code != 0 {
t.Fatalf("running command `%v` unsuccessful (ret %v)\nerr: %v", strings.Join(callArgs, " "), code, stderr.String())
}
t.Log(stdout.String() + stderr.String())
return stdout.String(), stderr.String()
}
func convertListOfInterfaceToString(list []interface{}, sep string) string {
newList := make([]string, len(list))
for i, interfa := range list {
newList[i] = interfa.(string)
}
return strings.Join(newList, sep)
}
func createComplicatedIssuerSetUp(t *testing.T, client *api.Client) {
// Relationship Map to Create
// pki-root | pki-newroot | pki-empty
// RootX1 RootX2 RootX4 RootX3
// | |
// ----------------------------------------------
// v v
// IntX1 IntX2 pki-int
// | |
// v v
// IntX3 (-----------------------) IntX3
//
// Here X1,X2 have the same name (same mount)
// RootX4 uses the same key as RootX1 (but a different common_name/subject)
// RootX3 has the same name, and is on a different mount
// RootX1 has issued IntX1; RootX3 has issued IntX2
if err := client.Sys().Mount("pki-root", &api.MountInput{
Type: "pki",
Config: api.MountConfigInput{
MaxLeaseTTL: "36500d",
},
}); err != nil {
t.Fatalf("pki mount error: %#v", err)
}
if err := client.Sys().Mount("pki-newroot", &api.MountInput{
Type: "pki",
Config: api.MountConfigInput{
MaxLeaseTTL: "36500d",
},
}); err != nil {
t.Fatalf("pki mount error: %#v", err)
}
if err := client.Sys().Mount("pki-int", &api.MountInput{
Type: "pki",
Config: api.MountConfigInput{
MaxLeaseTTL: "36500d",
},
}); err != nil {
t.Fatalf("pki mount error: %#v", err)
}
// Used to check handling empty list responses: Not Used for Any Issuers / Certificates
if err := client.Sys().Mount("pki-empty", &api.MountInput{
Type: "pki",
Config: api.MountConfigInput{},
}); err != nil {
t.Fatalf("pki mount error: %#v", err)
}
resp, err := client.Logical().Write("pki-root/root/generate/internal", map[string]interface{}{
"key_type": "ec",
"common_name": "Root X",
"ttl": "3650d",
"issuer_name": "rootX1",
"key_name": "rootX1",
})
if err != nil || resp == nil {
t.Fatalf("failed to prime CA: %v", err)
}
resp, err = client.Logical().Write("pki-root/root/generate/internal", map[string]interface{}{
"key_type": "ec",
"common_name": "Root X",
"ttl": "3650d",
"issuer_name": "rootX2",
})
if err != nil || resp == nil {
t.Fatalf("failed to prime CA: %v", err)
}
if resp, err := client.Logical().Write("pki-newroot/root/generate/internal", map[string]interface{}{
"key_type": "ec",
"common_name": "Root X",
"ttl": "3650d",
"issuer_name": "rootX3",
}); err != nil || resp == nil {
t.Fatalf("failed to prime CA: %v", err)
}
if resp, err := client.Logical().Write("pki-root/root/generate/existing", map[string]interface{}{
"common_name": "Root X4",
"ttl": "3650d",
"issuer_name": "rootX4",
"key_ref": "rootX1",
}); err != nil || resp == nil {
t.Fatalf("failed to prime CA: %v", err)
}
// Intermediate X1
int1CsrResp, err := client.Logical().Write("pki-int/intermediate/generate/internal", map[string]interface{}{
"key_type": "rsa",
"common_name": "Int X1",
"ttl": "3650d",
})
if err != nil || int1CsrResp == nil {
t.Fatalf("failed to generate CSR: %v", err)
}
int1KeyId, ok := int1CsrResp.Data["key_id"]
if !ok {
t.Fatalf("no key_id produced when generating csr, response %v", int1CsrResp.Data)
}
int1CsrRaw, ok := int1CsrResp.Data["csr"]
if !ok {
t.Fatalf("no csr produced when generating intermediate, resp: %v", int1CsrResp)
}
int1Csr := int1CsrRaw.(string)
int1CertResp, err := client.Logical().Write("pki-root/issuer/rootX1/sign-intermediate", map[string]interface{}{
"csr": int1Csr,
})
if err != nil || int1CertResp == nil {
t.Fatalf("failed to sign CSR: %v", err)
}
int1CertChainRaw, ok := int1CertResp.Data["ca_chain"]
if !ok {
t.Fatalf("no ca_chain produced when signing intermediate, resp: %v", int1CertResp)
}
int1CertChain := convertListOfInterfaceToString(int1CertChainRaw.([]interface{}), "\n")
importInt1Resp, err := client.Logical().Write("pki-int/issuers/import/cert", map[string]interface{}{
"pem_bundle": int1CertChain,
})
if err != nil || importInt1Resp == nil {
t.Fatalf("failed to import certificate: %v", err)
}
importIssuerIdMap, ok := importInt1Resp.Data["mapping"]
if !ok {
t.Fatalf("no mapping data returned on issuer import: %v", importInt1Resp)
}
for key, value := range importIssuerIdMap.(map[string]interface{}) {
if value != nil && len(value.(string)) > 0 {
if value != int1KeyId {
t.Fatalf("Expected exactly one key_match to %v, got multiple: %v", int1KeyId, importIssuerIdMap)
}
if resp, err := client.Logical().JSONMergePatch(context.Background(), "pki-int/issuer/"+key, map[string]interface{}{
"issuer_name": "intX1",
}); err != nil || resp == nil {
t.Fatalf("error naming issuer %v", err)
}
} else {
if resp, err := client.Logical().JSONMergePatch(context.Background(), "pki-int/issuer/"+key, map[string]interface{}{
"issuer_name": "rootX1",
}); err != nil || resp == nil {
t.Fatalf("error naming issuer parent %v", err)
}
}
}
// Intermediate X2
int2CsrResp, err := client.Logical().Write("pki-int/intermediate/generate/internal", map[string]interface{}{
"key_type": "ec",
"common_name": "Int X2",
"ttl": "3650d",
})
if err != nil || int2CsrResp == nil {
t.Fatalf("failed to generate CSR: %v", err)
}
int2KeyId, ok := int2CsrResp.Data["key_id"]
if !ok {
t.Fatalf("no key material returned from producing csr, resp: %v", int2CsrResp)
}
int2CsrRaw, ok := int2CsrResp.Data["csr"]
if !ok {
t.Fatalf("no csr produced when generating intermediate, resp: %v", int2CsrResp)
}
int2Csr := int2CsrRaw.(string)
int2CertResp, err := client.Logical().Write("pki-newroot/issuer/rootX3/sign-intermediate", map[string]interface{}{
"csr": int2Csr,
})
if err != nil || int2CertResp == nil {
t.Fatalf("failed to sign CSR: %v", err)
}
int2CertChainRaw, ok := int2CertResp.Data["ca_chain"]
if !ok {
t.Fatalf("no ca_chain produced when signing intermediate, resp: %v", int2CertResp)
}
int2CertChain := convertListOfInterfaceToString(int2CertChainRaw.([]interface{}), "\n")
importInt2Resp, err := client.Logical().Write("pki-int/issuers/import/cert", map[string]interface{}{
"pem_bundle": int2CertChain,
})
if err != nil || importInt2Resp == nil {
t.Fatalf("failed to import certificate: %v", err)
}
importIssuer2IdMap, ok := importInt2Resp.Data["mapping"]
if !ok {
t.Fatalf("no mapping data returned on issuer import: %v", importInt2Resp)
}
for key, value := range importIssuer2IdMap.(map[string]interface{}) {
if value != nil && len(value.(string)) > 0 {
if value != int2KeyId {
t.Fatalf("unexpected key_match with ca_chain, expected only %v, got %v", int2KeyId, importIssuer2IdMap)
}
if resp, err := client.Logical().JSONMergePatch(context.Background(), "pki-int/issuer/"+key, map[string]interface{}{
"issuer_name": "intX2",
}); err != nil || resp == nil {
t.Fatalf("error naming issuer %v", err)
}
} else {
if resp, err := client.Logical().Write("pki-int/issuer/"+key, map[string]interface{}{
"issuer_name": "rootX3",
}); err != nil || resp == nil {
t.Fatalf("error naming parent issuer %v", err)
}
}
}
// Intermediate X3
int3CsrResp, err := client.Logical().Write("pki-int/intermediate/generate/internal", map[string]interface{}{
"key_type": "rsa",
"common_name": "Int X3",
"ttl": "3650d",
})
if err != nil || int3CsrResp == nil {
t.Fatalf("failed to generate CSR: %v", err)
}
int3KeyId, ok := int3CsrResp.Data["key_id"]
int3CsrRaw, ok := int3CsrResp.Data["csr"]
if !ok {
t.Fatalf("no csr produced when generating intermediate, resp: %v", int3CsrResp)
}
int3Csr := int3CsrRaw.(string)
// sign by intX1 and import
int3CertResp1, err := client.Logical().Write("pki-int/issuer/intX1/sign-intermediate", map[string]interface{}{
"csr": int3Csr,
})
if err != nil || int3CertResp1 == nil {
t.Fatalf("failed to sign CSR: %v", err)
}
int3CertChainRaw1, ok := int3CertResp1.Data["ca_chain"]
if !ok {
t.Fatalf("no ca_chain produced when signing intermediate, resp: %v", int3CertResp1)
}
int3CertChain1 := convertListOfInterfaceToString(int3CertChainRaw1.([]interface{}), "\n")
importInt3Resp1, err := client.Logical().Write("pki-int/issuers/import/cert", map[string]interface{}{
"pem_bundle": int3CertChain1,
})
if err != nil || importInt3Resp1 == nil {
t.Fatalf("failed to import certificate: %v", err)
}
importIssuer3IdMap1, ok := importInt3Resp1.Data["mapping"]
if !ok {
t.Fatalf("no mapping data returned on issuer import: %v", importInt2Resp)
}
for key, value := range importIssuer3IdMap1.(map[string]interface{}) {
if value != nil && len(value.(string)) > 0 && value == int3KeyId {
if resp, err := client.Logical().JSONMergePatch(context.Background(), "pki-int/issuer/"+key, map[string]interface{}{
"issuer_name": "intX3",
}); err != nil || resp == nil {
t.Fatalf("error naming issuer %v", err)
}
break
}
}
// sign by intX2 and import
int3CertResp2, err := client.Logical().Write("pki-int/issuer/intX2/sign-intermediate", map[string]interface{}{
"csr": int3Csr,
})
if err != nil || int3CertResp2 == nil {
t.Fatalf("failed to sign CSR: %v", err)
}
int3CertChainRaw2, ok := int3CertResp2.Data["ca_chain"]
if !ok {
t.Fatalf("no ca_chain produced when signing intermediate, resp: %v", int3CertResp2)
}
int3CertChain2 := convertListOfInterfaceToString(int3CertChainRaw2.([]interface{}), "\n")
importInt3Resp2, err := client.Logical().Write("pki-int/issuers/import/cert", map[string]interface{}{
"pem_bundle": int3CertChain2,
})
if err != nil || importInt3Resp2 == nil {
t.Fatalf("failed to import certificate: %v", err)
}
importIssuer3IdMap2, ok := importInt3Resp2.Data["mapping"]
if !ok {
t.Fatalf("no mapping data returned on issuer import: %v", importInt2Resp)
}
for key, value := range importIssuer3IdMap2.(map[string]interface{}) {
if value != nil && len(value.(string)) > 0 && value == int3KeyId {
if resp, err := client.Logical().JSONMergePatch(context.Background(), "pki-int/issuer/"+key, map[string]interface{}{
"issuer_name": "intX3also",
}); err != nil || resp == nil {
t.Fatalf("error naming issuer %v", err)
}
break // Parent Certs Already Named
}
}
}
func verifyExpectedJson(expectedResults map[string]bool, results map[string]interface{}) (isMatch bool, error string) {
if len(expectedResults) != len(results) {
return false, fmt.Sprintf("Different Number of Keys in Expected Results (%d), than results (%d)",
len(expectedResults), len(results))
}
for key, value := range expectedResults {
if results[key].(bool) != value {
return false, fmt.Sprintf("Different value for key %s : expected %t got %s", key, value, results[key])
}
}
return true, ""
}