smallstep-certificates/pki/helm_test.go

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package pki
import (
"bytes"
"crypto/sha256"
"crypto/x509"
"encoding/hex"
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"encoding/json"
"encoding/pem"
"os"
"strings"
"testing"
"github.com/google/go-cmp/cmp"
"github.com/stretchr/testify/assert"
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"go.step.sm/crypto/jose"
"go.step.sm/linkedca"
"github.com/smallstep/certificates/cas/apiv1"
)
func TestPKI_WriteHelmTemplate(t *testing.T) {
var preparePKI = func(t *testing.T, opts ...Option) *PKI {
o := apiv1.Options{
Type: "softcas",
IsCreator: true,
}
// Add default WithHelm option
opts = append(opts, WithHelm())
// TODO(hs): invoking `New` doesn't perform all operations that are executed
// when `ca init --helm` is executed. Ideally this logic should be handled
// in one place and probably inside of the PKI initialization. For testing
// purposes the missing operations to fill a Helm template fully are faked
// by `setKeyPair`, `setCertificates` and `setSSHSigningKeys`
p, err := New(o, opts...)
assert.NoError(t, err)
// setKeyPair sets a predefined JWK and a default JWK provisioner. This is one
// of the things performed in the `ca init` code that's not part of `New`, but
// performed after that in p.GenerateKeyPairs`. We're currently using the same
// JWK for every test to keep test variance small: we're not testing JWK generation
// here after all. It's a bit dangerous to redefine the function here, but it's
// the simplest way to make this fully testable without refactoring the init now.
// The password for the predefined encrypted key is \x01\x03\x03\x07.
setKeyPair(t, p)
// setCertificates sets some static intermediate and root CA certificate bytes. It
// replaces the logic executed in `p.GenerateRootCertificate`, `p.WriteRootCertificate`,
// and `p.GenerateIntermediateCertificate`.
setCertificates(t, p)
// setSSHSigningKeys sets predefined SSH user and host certificate and key bytes.
// This replaces the logic in `p.GenerateSSHSigningKeys`
setSSHSigningKeys(t, p)
return p
}
type test struct {
pki *PKI
testFile string
wantErr bool
}
var tests = map[string]func(t *testing.T) test{
"ok/simple": func(t *testing.T) test {
return test{
pki: preparePKI(t),
testFile: "testdata/helm/simple.yml",
wantErr: false,
}
},
"ok/with-provisioner": func(t *testing.T) test {
return test{
pki: preparePKI(t, WithProvisioner("a-provisioner")),
testFile: "testdata/helm/with-provisioner.yml",
wantErr: false,
}
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},
"ok/with-acme": func(t *testing.T) test {
return test{
pki: preparePKI(t, WithACME()),
testFile: "testdata/helm/with-acme.yml",
wantErr: false,
}
},
"ok/with-acme-and-duplicate-provisioner-name": func(t *testing.T) test {
return test{
pki: preparePKI(t, WithProvisioner("acme"), WithACME()),
testFile: "testdata/helm/with-acme-and-duplicate-provisioner-name.yml",
wantErr: false,
}
},
"ok/with-admin": func(t *testing.T) test {
return test{
pki: preparePKI(t, WithAdmin()),
testFile: "testdata/helm/with-admin.yml",
wantErr: false,
}
},
"ok/with-ssh": func(t *testing.T) test {
return test{
pki: preparePKI(t, WithSSH()),
testFile: "testdata/helm/with-ssh.yml",
wantErr: false,
}
},
"ok/with-ssh-and-duplicate-provisioner-name": func(t *testing.T) test {
return test{
pki: preparePKI(t, WithProvisioner("sshpop"), WithSSH()),
testFile: "testdata/helm/with-ssh-and-duplicate-provisioner-name.yml",
wantErr: false,
}
},
"ok/with-ssh-and-acme": func(t *testing.T) test {
return test{
pki: preparePKI(t, WithSSH(), WithACME()),
testFile: "testdata/helm/with-ssh-and-acme.yml",
wantErr: false,
}
},
"fail/authority.ProvisionerToCertificates": func(t *testing.T) test {
pki := preparePKI(t)
pki.Authority.Provisioners = append(pki.Authority.Provisioners,
&linkedca.Provisioner{
Type: linkedca.Provisioner_JWK,
Name: "Broken JWK",
Details: nil,
},
)
return test{
pki: pki,
wantErr: true,
}
},
}
for name, run := range tests {
tc := run(t)
t.Run(name, func(t *testing.T) {
w := &bytes.Buffer{}
if err := tc.pki.WriteHelmTemplate(w); (err != nil) != tc.wantErr {
t.Errorf("PKI.WriteHelmTemplate() error = %v, wantErr %v", err, tc.wantErr)
return
}
if tc.wantErr {
// don't compare output if an error was expected on output
return
}
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wantBytes, err := os.ReadFile(tc.testFile)
assert.NoError(t, err)
if diff := cmp.Diff(wantBytes, w.Bytes()); diff != "" {
t.Logf("Generated Helm template did not match reference %q\n", tc.testFile)
t.Errorf("Diff follows:\n%s\n", diff)
t.Errorf("Full output:\n%s\n", w.Bytes())
}
})
}
}
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// setKeyPair sets a predefined JWK and a default JWK provisioner.
func setKeyPair(t *testing.T, p *PKI) {
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t.Helper()
var err error
p.ottPublicKey, err = jose.ParseKey([]byte(`{"use":"sig","kty":"EC","kid":"zsUmysmDVoGJ71YoPHyZ-68tNihDaDaO5Mu7xX3M-_I","crv":"P-256","alg":"ES256","x":"Pqnua4CzqKz6ua41J3yeWZ1sRkGt0UlCkbHv8H2DGuY","y":"UhoZ_2ItDen9KQTcjay-ph-SBXH0mwqhHyvrrqIFDOI"}`))
if err != nil {
t.Fatal(err)
}
p.ottPrivateKey, err = jose.ParseEncrypted("eyJhbGciOiJQQkVTMi1IUzI1NitBMTI4S1ciLCJjdHkiOiJqd2sranNvbiIsImVuYyI6IkEyNTZHQ00iLCJwMmMiOjEwMDAwMCwicDJzIjoiZjVvdGVRS2hvOXl4MmQtSGlMZi05QSJ9.eYA6tt3fNuUpoxKWDT7P0Lbn2juxhEbTxEnwEMbjlYLLQ3sxL-dYTA.ven-FhmdjlC9itH0.a2jRTarN9vPd6F_mWnNBlOn6KbfMjCApmci2t65XbAsLzYFzhI_79Ykm5ueMYTupWLTjBJctl-g51ZHmsSB55pStbpoyyLNAsUX2E1fTmHe-Ni8bRrspwLv15FoN1Xo1g0mpR-ufWIFxOsW-QIfnMmMIIkygVuHFXmg2tFpzTNNG5aS29K3dN2nyk0WJrdIq79hZSTqVkkBU25Yu3A46sgjcM86XcIJJ2XUEih_KWEa6T1YrkixGu96pebjVqbO0R6dbDckfPF7FqNnwPHVtb1ACFpEYoOJVIbUCMaARBpWsxYhjJZlEM__XA46l8snFQDkNY3CdN0p1_gF3ckA.JLmq9nmu1h9oUi1S8ZxYjA")
if err != nil {
t.Fatal(err)
}
var claims *linkedca.Claims
if p.options.enableSSH {
claims = &linkedca.Claims{
Ssh: &linkedca.SSHClaims{
Enabled: true,
},
}
}
publicKey, err := json.Marshal(p.ottPublicKey)
if err != nil {
t.Fatal(err)
}
encryptedKey, err := p.ottPrivateKey.CompactSerialize()
if err != nil {
t.Fatal(err)
}
p.Authority.Provisioners = append(p.Authority.Provisioners, &linkedca.Provisioner{
Type: linkedca.Provisioner_JWK,
Name: p.options.provisioner,
Claims: claims,
Details: &linkedca.ProvisionerDetails{
Data: &linkedca.ProvisionerDetails_JWK{
JWK: &linkedca.JWKProvisioner{
PublicKey: publicKey,
EncryptedPrivateKey: []byte(encryptedKey),
},
},
},
})
}
// setCertificates sets some static, gibberish intermediate and root CA certificate and key bytes.
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func setCertificates(_ *testing.T, p *PKI) {
raw := []byte("these are just some fake root CA cert bytes")
p.Files[p.Root[0]] = encodeCertificate(&x509.Certificate{Raw: raw})
p.Files[p.RootKey[0]] = pem.EncodeToMemory(&pem.Block{
Type: "EC PRIVATE KEY",
Bytes: []byte("these are just some fake root CA key bytes"),
})
p.Files[p.Intermediate] = encodeCertificate(&x509.Certificate{Raw: []byte("these are just some fake intermediate CA cert bytes")})
p.Files[p.IntermediateKey] = pem.EncodeToMemory(&pem.Block{
Type: "EC PRIVATE KEY",
Bytes: []byte("these are just some fake intermediate CA key bytes"),
})
sum := sha256.Sum256(raw)
p.Defaults.Fingerprint = strings.ToLower(hex.EncodeToString(sum[:]))
}
// setSSHSigningKeys sets some static, gibberish ssh user and host CA certificate and key bytes.
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func setSSHSigningKeys(_ *testing.T, p *PKI) {
if !p.options.enableSSH {
return
}
p.Files[p.Ssh.HostKey] = pem.EncodeToMemory(&pem.Block{
Type: "EC PRIVATE KEY",
Bytes: []byte("fake ssh host key bytes"),
})
p.Files[p.Ssh.HostPublicKey] = []byte("ecdsa-sha2-nistp256 AAAAE2VjZHNhLXNoYTItbmlzdHAyNTYAAAAIbmlzdHAyNTYAAABBBJ0IdS5sZm6KITBMZLEJD6b5ROVraYHcAOr3feFel8r1Wp4DRPR1oU0W00J/zjNBRBbANlJoYN4x/8WNNVZ49Ms=")
p.Files[p.Ssh.UserKey] = pem.EncodeToMemory(&pem.Block{
Type: "EC PRIVATE KEY",
Bytes: []byte("fake ssh user key bytes"),
})
p.Files[p.Ssh.UserPublicKey] = []byte("ecdsa-sha2-nistp256 AAAAE2VjZHNhLXNoYTItbmlzdHAyNTYAAAAIbmlzdHAyNTYAAABBBEWA1qUxaGwVNErsvEOGe2d6TvLMF+aiVpuOiIEvpMJ3JeJmecLQctjWqeIbpSvy6/gRa7c82Ge5rLlapYmOChs=")
}