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|
package oidc_test
import (
"bytes"
"crypto/ecdsa"
"crypto/rsa"
"crypto/x509"
"fmt"
"net/url"
"os"
"strings"
"github.com/authelia/authelia/v4/internal/configuration/schema"
"github.com/authelia/authelia/v4/internal/utils"
)
const (
pathCrypto = "../configuration/test_resources/crypto/%s.%s"
myclient = "myclient"
myclientdesc = "My Client"
onefactor = "one_factor"
twofactor = "two_factor"
examplecom = "https://example.com"
examplecomsid = "example.com"
badhmac = "asbdhaaskmdlkamdklasmdlkams"
badTokenString = "badTokenString"
)
const (
abc = "abc"
)
func MustDecodeSecret(value string) *schema.PasswordDigest {
if secret, err := schema.DecodePasswordDigest(value); err != nil {
panic(err)
} else {
return secret
}
}
func MustParseRequestURI(input string) *url.URL {
if requestURI, err := url.ParseRequestURI(input); err != nil {
panic(err)
} else {
return requestURI
}
}
func MustLoadCrypto(alg, mod, ext string, extra ...string) any {
fparts := []string{alg, mod}
if len(extra) != 0 {
fparts = append(fparts, extra...)
}
var (
data []byte
decoded any
err error
)
if data, err = os.ReadFile(fmt.Sprintf(pathCrypto, strings.Join(fparts, "_"), ext)); err != nil {
panic(err)
}
if decoded, err = utils.ParseX509FromPEMRecursive(data); err != nil {
panic(err)
}
return decoded
}
var (
tOpenIDConnectPBKDF2ClientSecret, tOpenIDConnectPlainTextClientSecret *schema.PasswordDigest
)
func MustLoadRSACryptoSet(legacy bool, extra ...string) (chain schema.X509CertificateChain, key *rsa.PrivateKey) {
c, cc, k := MustLoadCryptoSet("RSA", legacy, extra...)
chain = MustParseCertificateChain(c, cc)
var (
decoded any
err error
ok bool
)
if decoded, err = utils.ParseX509FromPEMRecursive(k); err != nil {
panic(err)
}
if key, ok = decoded.(*rsa.PrivateKey); ok {
if chain.EqualKey(key) {
return chain, key
}
panic("key not valid for chain")
}
panic("invalid key")
}
func MustLoadECDSACryptoSet(legacy bool, extra ...string) (chain schema.X509CertificateChain, key *ecdsa.PrivateKey) {
c, cc, k := MustLoadCryptoSet("ECDSA", legacy, extra...)
chain = MustParseCertificateChain(c, cc)
var (
decoded any
err error
ok bool
)
if decoded, err = utils.ParseX509FromPEMRecursive(k); err != nil {
panic(err)
}
if key, ok = decoded.(*ecdsa.PrivateKey); ok {
if chain.EqualKey(key) {
return chain, key
}
panic("key not valid for chain")
}
panic("invalid key")
}
func MustLoadCryptoSet(alg string, legacy bool, extra ...string) (cert, certCA, key []byte) {
extraAlt := make([]string, len(extra))
copy(extraAlt, extra)
if legacy {
extraAlt = append(extraAlt, "legacy")
}
return MustLoadCryptoRaw(false, alg, "crt", extraAlt...), MustLoadCryptoRaw(true, alg, "crt", extra...), MustLoadCryptoRaw(false, alg, "pem", extraAlt...)
}
func MustLoadCryptoRaw(ca bool, alg, ext string, extra ...string) []byte {
var fparts []string
if ca {
fparts = append(fparts, "ca")
}
fparts = append(fparts, strings.ToLower(alg))
if len(extra) != 0 {
fparts = append(fparts, extra...)
}
var (
data []byte
err error
)
if data, err = os.ReadFile(fmt.Sprintf(pathCrypto, strings.Join(fparts, "."), ext)); err != nil {
panic(err)
}
return data
}
func MustParseCertificateChain(blocks ...[]byte) schema.X509CertificateChain {
buf := &bytes.Buffer{}
for _, block := range blocks {
buf.Write(block)
}
var (
decoded any
err error
)
if decoded, err = utils.ParseX509FromPEMRecursive(buf.Bytes()); err != nil {
panic(err)
}
switch cert := decoded.(type) {
case *x509.Certificate:
return schema.NewX509CertificateChainFromCerts([]*x509.Certificate{cert})
case []*x509.Certificate:
return schema.NewX509CertificateChainFromCerts(cert)
default:
panic(fmt.Errorf("the key was not a *x509.Certificate or []*x509.Certificate, it's a %T", cert))
}
}
var (
x509CertificateChainRSA2048, x509CertificateChainRSA4096 schema.X509CertificateChain
x509PrivateKeyRSA2048, x509PrivateKeyRSA4096 *rsa.PrivateKey
x509CertificateChainECDSAP256, x509CertificateChainECDSAP384, x509CertificateChainECDSAP521 schema.X509CertificateChain
x509PrivateKeyECDSAP256, x509PrivateKeyECDSAP384, x509PrivateKeyECDSAP521 *ecdsa.PrivateKey
)
func init() {
tOpenIDConnectPBKDF2ClientSecret = MustDecodeSecret("$pbkdf2-sha512$100000$cfNEo93VkIUIvaXHqetFoQ$O6qFLAlwCMz6.hv9XqUEPnMtrFxODw70T7bmnfTzfNPi3iXbgUEmGiyA6msybOfmj7m3QJS6lLy4DglgJifkKw")
tOpenIDConnectPlainTextClientSecret = MustDecodeSecret("$plaintext$client-secret")
x509CertificateChainRSA2048, x509PrivateKeyRSA2048 = MustLoadRSACryptoSet(false, "2048")
x509CertificateChainRSA4096, x509PrivateKeyRSA4096 = MustLoadRSACryptoSet(false, "4096")
x509CertificateChainECDSAP256, x509PrivateKeyECDSAP256 = MustLoadECDSACryptoSet(false, "P256")
x509CertificateChainECDSAP384, x509PrivateKeyECDSAP384 = MustLoadECDSACryptoSet(false, "P384")
x509CertificateChainECDSAP521, x509PrivateKeyECDSAP521 = MustLoadECDSACryptoSet(false, "P521")
}
|
