package funcs import ( "fmt" "testing" "github.com/zclconf/go-cty/cty" "golang.org/x/crypto/bcrypt" ) func TestUUID(t *testing.T) { result, err := UUID() if err != nil { t.Fatal(err) } resultStr := result.AsString() if got, want := len(resultStr), 36; got != want { t.Errorf("wrong result length %d; want %d", got, want) } } func TestBase64Sha256(t *testing.T) { tests := []struct { String cty.Value Want cty.Value Err bool }{ { cty.StringVal("test"), cty.StringVal("n4bQgYhMfWWaL+qgxVrQFaO/TxsrC4Is0V1sFbDwCgg="), false, }, // This would differ because we're base64-encoding hex represantiation, not raw bytes. // base64encode(sha256("test")) = // "OWY4NmQwODE4ODRjN2Q2NTlhMmZlYWEwYzU1YWQwMTVhM2JmNGYxYjJiMGI4MjJjZDE1ZDZjMTViMGYwMGEwOA==" } for _, test := range tests { t.Run(fmt.Sprintf("base64sha256(%#v)", test.String), func(t *testing.T) { got, err := Base64Sha256(test.String) if test.Err { if err == nil { t.Fatal("succeeded; want error") } return } else if err != nil { t.Fatalf("unexpected error: %s", err) } if !got.RawEquals(test.Want) { t.Errorf("wrong result\ngot: %#v\nwant: %#v", got, test.Want) } }) } } func TestBase64Sha512(t *testing.T) { tests := []struct { String cty.Value Want cty.Value Err bool }{ { cty.StringVal("test"), cty.StringVal("7iaw3Ur350mqGo7jwQrpkj9hiYB3Lkc/iBml1JQODbJ6wYX4oOHV+E+IvIh/1nsUNzLDBMxfqa2Ob1f1ACio/w=="), false, }, // This would differ because we're base64-encoding hex represantiation, not raw bytes // base64encode(sha512("test")) = // "OZWUyNmIwZGQ0YWY3ZTc0OWFhMWE4ZWUzYzEwYWU5OTIzZjYxODk4MDc3MmU0NzNmODgxOWE1ZDQ5NDBlMGRiMjdhYzE4NWY4YTBlMWQ1Zjg0Zjg4YmM4ODdmZDY3YjE0MzczMmMzMDRjYzVmYTlhZDhlNmY1N2Y1MDAyOGE4ZmY=" } for _, test := range tests { t.Run(fmt.Sprintf("base64sha512(%#v)", test.String), func(t *testing.T) { got, err := Base64Sha512(test.String) if test.Err { if err == nil { t.Fatal("succeeded; want error") } return } else if err != nil { t.Fatalf("unexpected error: %s", err) } if !got.RawEquals(test.Want) { t.Errorf("wrong result\ngot: %#v\nwant: %#v", got, test.Want) } }) } } func TestBcrypt(t *testing.T) { // single variable test p, err := Bcrypt(cty.StringVal("test")) if err != nil { t.Fatalf("err: %s", err) } err = bcrypt.CompareHashAndPassword([]byte(p.AsString()), []byte("test")) if err != nil { t.Fatalf("Error comparing hash and password: %s", err) } // testing with two parameters p, err = Bcrypt(cty.StringVal("test"), cty.NumberIntVal(5)) if err != nil { t.Fatalf("err: %s", err) } err = bcrypt.CompareHashAndPassword([]byte(p.AsString()), []byte("test")) if err != nil { t.Fatalf("Error comparing hash and password: %s", err) } // Negative test for more than two parameters _, err = Bcrypt(cty.StringVal("test"), cty.NumberIntVal(10), cty.NumberIntVal(11)) if err == nil { t.Fatal("succeeded; want error") } } func TestMd5(t *testing.T) { tests := []struct { String cty.Value Want cty.Value Err bool }{ { cty.StringVal("tada"), cty.StringVal("ce47d07243bb6eaf5e1322c81baf9bbf"), false, }, { // Confirm that we're not trimming any whitespaces cty.StringVal(" tada "), cty.StringVal("aadf191a583e53062de2d02c008141c4"), false, }, { // We accept empty string too cty.StringVal(""), cty.StringVal("d41d8cd98f00b204e9800998ecf8427e"), false, }, } for _, test := range tests { t.Run(fmt.Sprintf("md5(%#v)", test.String), func(t *testing.T) { got, err := Md5(test.String) if test.Err { if err == nil { t.Fatal("succeeded; want error") } return } else if err != nil { t.Fatalf("unexpected error: %s", err) } if !got.RawEquals(test.Want) { t.Errorf("wrong result\ngot: %#v\nwant: %#v", got, test.Want) } }) } } func TestRsaDecrypt(t *testing.T) { tests := []struct { Ciphertext cty.Value Privatekey cty.Value Want cty.Value Err bool }{ // Base-64 encoded cipher decrypts correctly { cty.StringVal(CipherBase64), cty.StringVal(PrivateKey), cty.StringVal("message"), false, }, // Wrong key { cty.StringVal(CipherBase64), cty.StringVal(WrongPrivateKey), cty.UnknownVal(cty.String), true, }, // Bad key { cty.StringVal(CipherBase64), cty.StringVal("bad key"), cty.UnknownVal(cty.String), true, }, // Empty key { cty.StringVal(CipherBase64), cty.StringVal(""), cty.UnknownVal(cty.String), true, }, // Bad cipher { cty.StringVal("bad cipher"), cty.StringVal(PrivateKey), cty.UnknownVal(cty.String), true, }, // Empty cipher { cty.StringVal(""), cty.StringVal(PrivateKey), cty.UnknownVal(cty.String), true, }, } for _, test := range tests { t.Run(fmt.Sprintf("RsaDecrypt(%#v, %#v)", test.Ciphertext, test.Privatekey), func(t *testing.T) { got, err := RsaDecrypt(test.Ciphertext, test.Privatekey) if test.Err { if err == nil { t.Fatal("succeeded; want error") } return } else if err != nil { t.Fatalf("unexpected error: %s", err) } if !got.RawEquals(test.Want) { t.Errorf("wrong result\ngot: %#v\nwant: %#v", got, test.Want) } }) } } func TestSha1(t *testing.T) { tests := []struct { String cty.Value Want cty.Value Err bool }{ { cty.StringVal("test"), cty.StringVal("a94a8fe5ccb19ba61c4c0873d391e987982fbbd3"), false, }, } for _, test := range tests { t.Run(fmt.Sprintf("sha1(%#v)", test.String), func(t *testing.T) { got, err := Sha1(test.String) if test.Err { if err == nil { t.Fatal("succeeded; want error") } return } else if err != nil { t.Fatalf("unexpected error: %s", err) } if !got.RawEquals(test.Want) { t.Errorf("wrong result\ngot: %#v\nwant: %#v", got, test.Want) } }) } } func TestSha256(t *testing.T) { tests := []struct { String cty.Value Want cty.Value Err bool }{ { cty.StringVal("test"), cty.StringVal("9f86d081884c7d659a2feaa0c55ad015a3bf4f1b2b0b822cd15d6c15b0f00a08"), false, }, } for _, test := range tests { t.Run(fmt.Sprintf("sha256(%#v)", test.String), func(t *testing.T) { got, err := Sha256(test.String) if test.Err { if err == nil { t.Fatal("succeeded; want error") } return } else if err != nil { t.Fatalf("unexpected error: %s", err) } if !got.RawEquals(test.Want) { t.Errorf("wrong result\ngot: %#v\nwant: %#v", got, test.Want) } }) } } const ( CipherBase64 = "eczGaDhXDbOFRZGhjx2etVzWbRqWDlmq0bvNt284JHVbwCgObiuyX9uV0LSAMY707IEgMkExJqXmsB4OWKxvB7epRB9G/3+F+pcrQpODlDuL9oDUAsa65zEpYF0Wbn7Oh7nrMQncyUPpyr9WUlALl0gRWytOA23S+y5joa4M34KFpawFgoqTu/2EEH4Xl1zo+0fy73fEto+nfkUY+meuyGZ1nUx/+DljP7ZqxHBFSlLODmtuTMdswUbHbXbWneW51D7Jm7xB8nSdiA2JQNK5+Sg5x8aNfgvFTt/m2w2+qpsyFa5Wjeu6fZmXSl840CA07aXbk9vN4I81WmJyblD/ZA==" PrivateKey = ` -----BEGIN RSA PRIVATE KEY----- MIIEowIBAAKCAQEAgUElV5mwqkloIrM8ZNZ72gSCcnSJt7+/Usa5G+D15YQUAdf9 c1zEekTfHgDP+04nw/uFNFaE5v1RbHaPxhZYVg5ZErNCa/hzn+x10xzcepeS3KPV Xcxae4MR0BEegvqZqJzN9loXsNL/c3H/B+2Gle3hTxjlWFb3F5qLgR+4Mf4ruhER 1v6eHQa/nchi03MBpT4UeJ7MrL92hTJYLdpSyCqmr8yjxkKJDVC2uRrr+sTSxfh7 r6v24u/vp/QTmBIAlNPgadVAZw17iNNb7vjV7Gwl/5gHXonCUKURaV++dBNLrHIZ pqcAM8wHRph8mD1EfL9hsz77pHewxolBATV+7QIDAQABAoIBAC1rK+kFW3vrAYm3 +8/fQnQQw5nec4o6+crng6JVQXLeH32qXShNf8kLLG/Jj0vaYcTPPDZw9JCKkTMQ 0mKj9XR/5DLbBMsV6eNXXuvJJ3x4iKW5eD9WkLD4FKlNarBRyO7j8sfPTqXW7uat NxWdFH7YsSRvNh/9pyQHLWA5OituidMrYbc3EUx8B1GPNyJ9W8Q8znNYLfwYOjU4 Wv1SLE6qGQQH9Q0WzA2WUf8jklCYyMYTIywAjGb8kbAJlKhmj2t2Igjmqtwt1PYc pGlqbtQBDUiWXt5S4YX/1maIQ/49yeNUajjpbJiH3DbhJbHwFTzP3pZ9P9GHOzlG kYR+wSECgYEAw/Xida8kSv8n86V3qSY/I+fYQ5V+jDtXIE+JhRnS8xzbOzz3v0WS Oo5H+o4nJx5eL3Ghb3Gcm0Jn46dHrxinHbm+3RjXv/X6tlbxIYjRSQfHOTSMCTvd qcliF5vC6RCLXuc7R+IWR1Ky6eDEZGtrvt3DyeYABsp9fRUFR/6NluUCgYEAqNsw 1aSl7WJa27F0DoJdlU9LWerpXcazlJcIdOz/S9QDmSK3RDQTdqfTxRmrxiYI9LEs mkOkvzlnnOBMpnZ3ZOU5qIRfprecRIi37KDAOHWGnlC0EWGgl46YLb7/jXiWf0AG Y+DfJJNd9i6TbIDWu8254/erAS6bKMhW/3q7f2kCgYAZ7Id/BiKJAWRpqTRBXlvw BhXoKvjI2HjYP21z/EyZ+PFPzur/lNaZhIUlMnUfibbwE9pFggQzzf8scM7c7Sf+ mLoVSdoQ/Rujz7CqvQzi2nKSsM7t0curUIb3lJWee5/UeEaxZcmIufoNUrzohAWH BJOIPDM4ssUTLRq7wYM9uQKBgHCBau5OP8gE6mjKuXsZXWUoahpFLKwwwmJUp2vQ pOFPJ/6WZOlqkTVT6QPAcPUbTohKrF80hsZqZyDdSfT3peFx4ZLocBrS56m6NmHR UYHMvJ8rQm76T1fryHVidz85g3zRmfBeWg8yqT5oFg4LYgfLsPm1gRjOhs8LfPvI OLlRAoGBAIZ5Uv4Z3s8O7WKXXUe/lq6j7vfiVkR1NW/Z/WLKXZpnmvJ7FgxN4e56 RXT7GwNQHIY8eDjDnsHxzrxd+raOxOZeKcMHj3XyjCX3NHfTscnsBPAGYpY/Wxzh T8UYnFu6RzkixElTf2rseEav7rkdKkI3LAeIZy7B0HulKKsmqVQ7 -----END RSA PRIVATE KEY----- ` WrongPrivateKey = ` -----BEGIN RSA PRIVATE KEY----- MIIEowIBAAKCAQEAlrCgnEVgmNKCq7KPc+zUU5IrxPu1ClMNJS7RTsTPEkbwe5SB p+6V6WtCbD/X/lDRRGbOENChh1Phulb7lViqgrdpHydgsrKoS5ah3DfSIxLFLE00 9Yo4TCYwgw6+s59j16ZAFVinaQ9l6Kmrb2ll136hMrz8QKh+qw+onOLd38WFgm+W ZtUqSXf2LANzfzzy4OWFNyFqKaCAolSkPdTS9Nz+svtScvp002DQp8OdP1AgPO+l o5N3M38Fftapwg0pCtJ5Zq0NRWIXEonXiTEMA6zy3gEZVOmDxoIFUWnmrqlMJLFy 5S6LDrHSdqJhCxDK6WRZj43X9j8spktk3eGhMwIDAQABAoIBAAem8ID/BOi9x+Tw LFi2rhGQWqimH4tmrEQ3HGnjlKBY+d1MrUjZ1MMFr1nP5CgF8pqGnfA8p/c3Sz8r K5tp5T6+EZiDZ2WrrOApxg5ox0MAsQKO6SGO40z6o3wEQ6rbbTaGOrraxaWQIpyu AQanU4Sd6ZGqByVBaS1GnklZO+shCHqw73b7g1cpLEmFzcYnKHYHlUUIsstMe8E1 BaCY0CH7JbWBjcbiTnBVwIRZuu+EjGiQuhTilYL2OWqoMVg1WU0L2IFpR8lkf/2W SBx5J6xhwbBGASOpM+qidiN580GdPzGhWYSqKGroHEzBm6xPSmV1tadNA26WFG4p pthLiAECgYEA5BsPRpNYJAQLu5B0N7mj9eEp0HABVEgL/MpwiImjaKdAwp78HM64 IuPvJxs7r+xESiIz4JyjR8zrQjYOCKJsARYkmNlEuAz0SkHabCw1BdEBwUhjUGVB efoERK6GxfAoNqmSDwsOvHFOtsmDIlbHmg7G2rUxNVpeou415BSB0B8CgYEAqR4J YHKk2Ibr9rU+rBU33TcdTGw0aAkFNAVeqM9j0haWuFXmV3RArgoy09lH+2Ha6z/g fTX2xSDAWV7QUlLOlBRIhurPAo2jO2yCrGHPZcWiugstrR2hTTInigaSnCmK3i7F 6sYmL3S7K01IcVNxSlWvGijtClT92Cl2WUCTfG0CgYAiEjyk4QtQTd5mxLvnOu5X oqs5PBGmwiAwQRiv/EcRMbJFn7Oupd3xMDSflbzDmTnWDOfMy/jDl8MoH6TW+1PA kcsjnYhbKWwvz0hN0giVdtOZSDO1ZXpzOrn6fEsbM7T9/TQY1SD9WrtUKCNTNL0Z sM1ZC6lu+7GZCpW4HKwLJwKBgQCRT0yxQXBg1/UxwuO5ynV4rx2Oh76z0WRWIXMH S0MyxdP1SWGkrS/SGtM3cg/GcHtA/V6vV0nUcWK0p6IJyjrTw2XZ/zGluPuTWJYi 9dvVT26Vunshrz7kbH7KuwEICy3V4IyQQHeY+QzFlR70uMS0IVFWAepCoWqHbIDT CYhwNQKBgGPcLXmjpGtkZvggl0aZr9LsvCTckllSCFSI861kivL/rijdNoCHGxZv dfDkLTLcz9Gk41rD9Gxn/3sqodnTAc3Z2PxFnzg1Q/u3+x6YAgBwI/g/jE2xutGW H7CurtMwALQ/n/6LUKFmjRZjqbKX9SO2QSaC3grd6sY9Tu+bZjLe -----END RSA PRIVATE KEY----- ` )