// Copyright (c) 2018 Shivaram Lingamneni // released under the MIT license package utils import ( "testing" ) const ( storedToken = "1e82d113a59a874cccf82063ec603221" badToken = "1e82d113a59a874cccf82063ec603222" shortToken = "1e82d113a59a874cccf82063ec60322" longToken = "1e82d113a59a874cccf82063ec6032211" ) func TestGenerateSecretToken(t *testing.T) { token := GenerateSecretToken() if len(token) != SecretTokenLength { t.Errorf("bad token: %v", token) } } func TestTokenCompare(t *testing.T) { if !SecretTokensMatch(storedToken, storedToken) { t.Error("matching tokens must match") } if SecretTokensMatch(storedToken, badToken) { t.Error("non-matching tokens must not match") } if SecretTokensMatch(storedToken, shortToken) { t.Error("non-matching tokens must not match") } if SecretTokensMatch(storedToken, longToken) { t.Error("non-matching tokens must not match") } if SecretTokensMatch("", "") { t.Error("the empty token should not match anything") } if SecretTokensMatch("", storedToken) { t.Error("the empty token should not match anything") } } func BenchmarkGenerateSecretToken(b *testing.B) { for i := 0; i < b.N; i++ { GenerateSecretToken() } } func TestCertfpComparisons(t *testing.T) { opensslFP := "3D:6B:11:BF:B4:05:C3:F8:4B:38:CD:30:38:FB:EC:01:71:D5:03:54:79:04:07:88:4C:A5:5D:23:41:85:66:C9" oragonoFP := "3d6b11bfb405c3f84b38cd3038fbec0171d50354790407884ca55d23418566c9" badFP := "3d6b11bfb405c3f84b38cd3038fbec0171d50354790407884ca55d23418566c" badFP2 := "*" normalizedOpenssl, err := NormalizeCertfp(opensslFP) assertEqual(err, nil, t) assertEqual(normalizedOpenssl, oragonoFP, t) normalizedOragono, err := NormalizeCertfp(oragonoFP) assertEqual(err, nil, t) assertEqual(normalizedOragono, oragonoFP, t) _, err = NormalizeCertfp(badFP) if err == nil { t.Errorf("corrupt fp should fail normalization") } _, err = NormalizeCertfp(badFP2) if err == nil { t.Errorf("corrupt fp should fail normalization") } }