* @copyright 2013 Jim Wigginton * @license http://www.opensource.org/licenses/mit-license.html MIT License */ use phpseclib\Crypt\ECDSA; use phpseclib\Crypt\ECDSA\Keys\PKCS1; use phpseclib\Crypt\ECDSA\Keys\PKCS8; use phpseclib\Crypt\ECDSA\Keys\PuTTY; use phpseclib\Crypt\ECDSA\Keys\OpenSSH; use phpseclib\Crypt\ECDSA\Keys\XML; class Unit_Crypt_ECDSA_LoadKeyTest extends PhpseclibTestCase { // openssl ecparam -name secp256k1 -genkey -noout -out secp256k1.pem public function testPKCS1PrivateKey() { $key = new ECDSA; $key->load($expected = '-----BEGIN EC PRIVATE KEY----- MHQCAQEEIEzUawcXqUsQhaEQ51JLeOIY0ddzlO2nNgwDk32ETqwkoAcGBSuBBAAK oUQDQgAEFuVcVb9iCUhg2cknHPE+BouHGhQ39ORjMaMI3T4RfRxr6dj5HAXdEqVZ 1W94KMe30ndmTndcJ8BPeT1Dd15FdQ== -----END EC PRIVATE KEY-----'); $this->assertSame('secp256k1', $key->getCurve()); //PKCS1::useNamedCurve(); $this->assertSame($expected, $key->getPrivateKey('PKCS1')); } // openssl ecparam -name secp256k1 -genkey -noout -out secp256k1.pem -param_enc explicit public function testPKCS1PrivateKeySpecifiedCurve() { $key = new ECDSA; $key->load('-----BEGIN EC PRIVATE KEY----- MIIBEwIBAQQgFr6TF5meGfgCXDqVxoSEltGI+T94G42PPbA6/ibq+ouggaUwgaIC AQEwLAYHKoZIzj0BAQIhAP////////////////////////////////////7///wv MAYEAQAEAQcEQQR5vmZ++dy7rFWgYpXOhwsHApv82y3OKNlZ8oFbFvgXmEg62ncm o8RlXaT7/A4RCKj9F7RIpoVUGZxH0I/7ENS4AiEA/////////////////////rqu 3OavSKA7v9JejNA2QUECAQGhRANCAASCTRhjXqmdbqphSdxNkfTNAOmDW5cZ5fnZ ys0Tk4pUv/XdiMZtVCGTNsotGeFbT5X64JkP/BFi3PVqjwy2VhOc -----END EC PRIVATE KEY-----'); $this->assertSame('secp256k1', $key->getCurve()); // this key and the above key have a few small differences. // in both keys the coefficient's are 0 and 7. in the above // key both coefficients are encoded using a single byte. // in the following key the coefficient's are encoded // as 32 bytes (ie. the length of the reduction prime). // eg. one byte null padded to 32 bytes. // also, in the above key the cofactor (1; optional) is // included whereas in the following key it is not $expected = '-----BEGIN EC PRIVATE KEY----- MIIBTgIBAQQgFr6TF5meGfgCXDqVxoSEltGI+T94G42PPbA6/ibq+ouggeAwgd0C AQEwLAYHKoZIzj0BAQIhAP////////////////////////////////////7///wv MEQEIAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAABCAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAABwRBBHm+Zn753LusVaBilc6HCwcCm/zbLc4o 2VnygVsW+BeYSDradyajxGVdpPv8DhEIqP0XtEimhVQZnEfQj/sQ1LgCIQD///// ///////////////+uq7c5q9IoDu/0l6M0DZBQaFEA0IABIJNGGNeqZ1uqmFJ3E2R 9M0A6YNblxnl+dnKzROTilS/9d2Ixm1UIZM2yi0Z4VtPlfrgmQ/8EWLc9WqPDLZW E5w= -----END EC PRIVATE KEY-----'; PKCS1::useSpecifiedCurve(); $this->assertSame($expected, $key->getPrivateKey('PKCS1')); } // openssl ecparam -name secp256k1 -genkey -noout -out secp256k1.pem // openssl pkcs8 -topk8 -nocrypt -in secp256k1.pem -out secp256k1-2.pem public function testPKCS8PrivateKey() { $key = new ECDSA; $key->load($expected = '-----BEGIN PRIVATE KEY----- MIGEAgEAMBAGByqGSM49AgEGBSuBBAAKBG0wawIBAQQgAYCXwnhqMT6fCIKIkQ0w cac7QqHrn4TCQMF9a+im74WhRANCAATwCjyGuP8xQbvVjznqazL36oeAnD32I+X2 +wscW3OmyTDpk41HaWYPh+j+BoufsSkCwf8dBRGEQbCieZbbZogy -----END PRIVATE KEY-----'); $this->assertSame('secp256k1', $key->getCurve()); $this->assertSame($expected, $key->getPrivateKey('PKCS8')); } // openssl ecparam -name secp256k1 -genkey -noout -out secp256k1.pem -param_enc explicit // openssl pkcs8 -topk8 -nocrypt -in secp256k1.pem -out secp256k1-2.pem public function testPKCS8PrivateKeySpecifiedCurve() { $key = new ECDSA; $key->load('-----BEGIN PRIVATE KEY----- MIIBIwIBADCBrgYHKoZIzj0CATCBogIBATAsBgcqhkjOPQEBAiEA//////////// /////////////////////////v///C8wBgQBAAQBBwRBBHm+Zn753LusVaBilc6H CwcCm/zbLc4o2VnygVsW+BeYSDradyajxGVdpPv8DhEIqP0XtEimhVQZnEfQj/sQ 1LgCIQD////////////////////+uq7c5q9IoDu/0l6M0DZBQQIBAQRtMGsCAQEE IKFfw3vfd5pqA5SZOTFtpr7hdJoKP/rmTPMCggkAOA35oUQDQgAEnX66+UCzUW3T /fkLGIIfZjJm5bIMwAV85LpDom2hI441JRx+/W4WqtGuW+B/LABS6ZHp+qzepThC HsjS3Q9Pew== -----END PRIVATE KEY-----'); $this->assertSame('secp256k1', $key->getCurve()); // see testPKCS1PrivateKeySpecifiedCurve for an explanation // of how this key and the above key differ $expected = '-----BEGIN PRIVATE KEY----- MIIBXgIBADCB6QYHKoZIzj0CATCB3QIBATAsBgcqhkjOPQEBAiEA//////////// /////////////////////////v///C8wRAQgAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAEIAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAHBEEE eb5mfvncu6xVoGKVzocLBwKb/NstzijZWfKBWxb4F5hIOtp3JqPEZV2k+/wOEQio /Re0SKaFVBmcR9CP+xDUuAIhAP////////////////////66rtzmr0igO7/SXozQ NkFBBG0wawIBAQQgoV/De993mmoDlJk5MW2mvuF0mgo/+uZM8wKCCQA4DfmhRANC AASdfrr5QLNRbdP9+QsYgh9mMmblsgzABXzkukOibaEjjjUlHH79bhaq0a5b4H8s AFLpken6rN6lOEIeyNLdD097 -----END PRIVATE KEY-----'; PKCS8::useSpecifiedCurve(); $this->assertSame($expected, $key->getPrivateKey('PKCS8')); } // openssl ecparam -name sect113r1 -genkey -noout -out sect113r1.pem public function testBinaryPKCS1PrivateKey() { $key = new ECDSA; $key->load($expected = '-----BEGIN EC PRIVATE KEY----- MEECAQEEDwBZdP4eSzKk/uQa6jdtfKAHBgUrgQQABKEiAyAABAHqCoNb++mK5qvE c4rCzQEuI19czqvXpEPcAWSXew== -----END EC PRIVATE KEY-----'); $this->assertSame('sect113r1', $key->getCurve()); PKCS1::useNamedCurve(); $this->assertSame($expected, $key->getPrivateKey('PKCS1')); } // openssl ecparam -name sect113r1 -genkey -noout -out sect113r1.pem -param_enc explicit public function testBinaryPKCS1PrivateKeySpecifiedCurve() { $key = new ECDSA; $key->load('-----BEGIN EC PRIVATE KEY----- MIHNAgEBBA8AuSc4BeeyYTq9rbSDuL2ggZIwgY8CAQEwHAYHKoZIzj0BAjARAgFx BgkqhkjOPQECAwICAQkwNwQOMIglDKbnx/5knOhYIPcEDui+5NPiJgdEGIvg6ccj AxUAEOcjqxTWluZ2h1YVF1b+v4/LSakEHwQAnXNhbzX0qxQH1zViwQ8ApSgwJ3lY 7oTRMV7TGIYCDwEAAAAAAAAA2czsijnlbwIBAqEiAyAABAFC7c50y7uw+iuHeMCt WwCpKNBUcVeiHme609Dv/g== -----END EC PRIVATE KEY-----'); $this->assertSame('sect113r1', $key->getCurve()); // this key and the above key have a few small differences. // the above key has the (optional) seed for the verifiably // random function whereas the following key does not. // also, in the above key the cofactor (1; optional) is // included whereas in the following key it is not $expected = '-----BEGIN EC PRIVATE KEY----- MIGxAgEBBA8AuSc4BeeyYTq9rbSDuL2gdzB1AgEBMBwGByqGSM49AQIwEQIBcQYJ KoZIzj0BAgMCAgEJMCAEDjCIJQym58f+ZJzoWCD3BA7ovuTT4iYHRBiL4OnHIwQf BACdc2FvNfSrFAfXNWLBDwClKDAneVjuhNExXtMYhgIPAQAAAAAAAADZzOyKOeVv oSIDIAAEAULtznTLu7D6K4d4wK1bAKko0FRxV6IeZ7rT0O/+ -----END EC PRIVATE KEY-----'; PKCS1::useSpecifiedCurve(); $this->assertSame($expected, $key->getPrivateKey('PKCS1')); } // openssl ecparam -name sect113r1 -genkey -noout -out sect113r1.pem // openssl pkcs8 -topk8 -nocrypt -in sect113r1.pem -out sect113r1-2.pem // sect113r1's reduction polynomial is a trinomial public function testBinaryPKCS8PrivateKey() { $key = new ECDSA; $key->load($expected = '-----BEGIN PRIVATE KEY----- MFECAQAwEAYHKoZIzj0CAQYFK4EEAAQEOjA4AgEBBA8A5OuqAY8HYoFOaz9mE6mh IgMgAAQASF3rOTPXvH0QdRBvsrMBdLMf27yd8AWABrZTxvI= -----END PRIVATE KEY-----'); $this->assertSame('sect113r1', $key->getCurve()); PKCS8::useNamedCurve(); $this->assertSame($expected, $key->getPrivateKey('PKCS8')); } // openssl ecparam -name sect113r1 -genkey -noout -out sect113r1.pem -param_enc explicit // openssl pkcs8 -topk8 -nocrypt -in sect113r1.pem -out sect113r1-2.pem public function testBinaryPKCS8PrivateKeySpecifiedCurve() { $key = new ECDSA; $key->load('-----BEGIN PRIVATE KEY----- MIHdAgEAMIGbBgcqhkjOPQIBMIGPAgEBMBwGByqGSM49AQIwEQIBcQYJKoZIzj0B AgMCAgEJMDcEDjCIJQym58f+ZJzoWCD3BA7ovuTT4iYHRBiL4OnHIwMVABDnI6sU 1pbmdodWFRdW/r+Py0mpBB8EAJ1zYW819KsUB9c1YsEPAKUoMCd5WO6E0TFe0xiG Ag8BAAAAAAAAANnM7Io55W8CAQIEOjA4AgEBBA8AXtfDMRsRTx8snPbWHquhIgMg AAQA9xdWGJ6vV23+vkdq0C8BLJVg5E3amMyf/5keGa4= -----END PRIVATE KEY-----'); $this->assertSame('sect113r1', $key->getCurve()); // see testBinaryPKCS1PrivateKeySpecifiedCurve() for an // explanation of the differences between the above key // and the following key $expected = '-----BEGIN PRIVATE KEY----- MIHCAgEAMIGABgcqhkjOPQIBMHUCAQEwHAYHKoZIzj0BAjARAgFxBgkqhkjOPQEC AwICAQkwIAQOMIglDKbnx/5knOhYIPcEDui+5NPiJgdEGIvg6ccjBB8EAJ1zYW81 9KsUB9c1YsEPAKUoMCd5WO6E0TFe0xiGAg8BAAAAAAAAANnM7Io55W8EOjA4AgEB BA8AXtfDMRsRTx8snPbWHquhIgMgAAQA9xdWGJ6vV23+vkdq0C8BLJVg5E3amMyf /5keGa4= -----END PRIVATE KEY-----'; PKCS8::useSpecifiedCurve(); $this->assertSame($expected, $key->getPrivateKey('PKCS8')); } // openssl ecparam -name sect131r1 -genkey -noout -out sect131r1.pem -param_enc explicit // sect131r1's reduction polynomial is a pentanomial public function testBinaryPentanomialPKCS1PrivateKey() { $key = new ECDSA; $key->load('-----BEGIN EC PRIVATE KEY----- MIHoAgEBBBECPEK9NCISWf2riBsORoTM+6CBpzCBpAIBATAlBgcqhkjOPQECMBoC AgCDBgkqhkjOPQECAwMwCQIBAgIBAwIBCDA9BBEHoRsJp2tWIURBj/P/jCVwuAQR AhfAVhCIS2O5xscpFnj500EDFQBNaW5naHVhUXWYW9OtutohtDqX4gQjBACBuvkf 35gzxA+cGBNDY4OZB4xufqOMAB9zyBNLG0754VACEQQAAAAAAAAAAjEjlTqUZLVN AgECoSYDJAAEBEIolGjo5lnsYqNagqYPOaEGOglkllDO2aWPtB6n+x/WXw== -----END EC PRIVATE KEY-----'); $this->assertSame('sect131r1', $key->getCurve()); // see testBinaryPKCS1PrivateKeySpecifiedCurve() for an // explanation of the differences between the above key // and the following key $expected = '-----BEGIN EC PRIVATE KEY----- MIHOAgEBBBECPEK9NCISWf2riBsORoTM+6CBjTCBigIBATAlBgcqhkjOPQECMBoC AgCDBgkqhkjOPQECAwMwCQIBAgIBAwIBCDAmBBEHoRsJp2tWIURBj/P/jCVwuAQR AhfAVhCIS2O5xscpFnj500EEIwQAgbr5H9+YM8QPnBgTQ2ODmQeMbn6jjAAfc8gT SxtO+eFQAhEEAAAAAAAAAAIxI5U6lGS1TaEmAyQABARCKJRo6OZZ7GKjWoKmDzmh BjoJZJZQztmlj7Qep/sf1l8= -----END EC PRIVATE KEY-----'; PKCS1::useSpecifiedCurve(); $this->assertSame($expected, $key->getPrivateKey('PKCS1')); } // from https://tools.ietf.org/html/draft-ietf-curdle-pkix-07#section-10.1 public function testEd25519PublicKey() { $key = new ECDSA; $key->load('-----BEGIN PUBLIC KEY----- MCowBQYDK2VwAyEAGb9ECWmEzf6FQbrBZ9w7lshQhqowtrbLDFw4rXAxZuE= -----END PUBLIC KEY-----'); $this->assertSame('Ed25519', $key->getCurve()); // in the above key AlgorithmIdentifier has a single "child". in the // following key it has two. The second one is ("optional") NULL. // https://security.stackexchange.com/q/110330/15922 elaborates on // why phpseclib is encoding the NULL as opposed to omitting it. $expected = '-----BEGIN PUBLIC KEY----- MCwwBwYDK2VwBQADIQAZv0QJaYTN/oVBusFn3DuWyFCGqjC2tssMXDitcDFm4Q== -----END PUBLIC KEY-----'; $this->assertSame($expected, $key->getPublicKey('PKCS8')); } // from https://tools.ietf.org/html/draft-ietf-curdle-pkix-07#section-10.3 public function testEd25519PrivateKey() { // without public key (public key should be derived) $key = new ECDSA; $key->load('-----BEGIN PRIVATE KEY----- MC4CAQAwBQYDK2VwBCIEINTuctv5E1hK1bbY8fdp+K06/nwoy/HU++CXqI9EdVhC -----END PRIVATE KEY-----'); $this->assertSame('Ed25519', $key->getCurve()); $this->assertSame('Ed25519', $key->getPublicKey()->getCurve()); // with public key $key = new ECDSA; $key->load('-----BEGIN PRIVATE KEY----- MHICAQEwBQYDK2VwBCIEINTuctv5E1hK1bbY8fdp+K06/nwoy/HU++CXqI9EdVhC oB8wHQYKKoZIhvcNAQkJFDEPDA1DdXJkbGUgQ2hhaXJzgSEAGb9ECWmEzf6FQbrB Z9w7lshQhqowtrbLDFw4rXAxZuE= -----END PRIVATE KEY-----'); $this->assertSame('Ed25519', $key->getCurve()); $this->assertSame('Ed25519', $key->getPublicKey()->getCurve()); // the above key not only omits NULL - it also includes a // unstructuredName attribute with a value of "Curdle Chairs" // that the following key does not have $expected = '-----BEGIN PRIVATE KEY----- MFICAQEwBwYDK2VwBQAEIgQg1O5y2/kTWErVttjx92n4rTr+fCjL8dT74Jeoj0R1 WEKBIBm/RAlphM3+hUG6wWfcO5bIUIaqMLa2ywxcOK1wMWbh -----END PRIVATE KEY-----'; $this->assertSame($expected, $key->getPrivateKey('PKCS8')); } public function testPuTTYnistp256() { $key = new ECDSA; $key->load($expected = 'PuTTY-User-Key-File-2: ecdsa-sha2-nistp256 Encryption: none Comment: ecdsa-key-20181105 Public-Lines: 3 AAAAE2VjZHNhLXNoYTItbmlzdHAyNTYAAAAIbmlzdHAyNTYAAABBBJEXCsWA8s18 m25MJlVE1urbXPYFi4q8oMbb2H0kE2f5WPxizsKXRmb1J68paXQizryL9fC4FTqI CJ1+UnaPfk0= Private-Lines: 1 AAAAIQDwaPlajbXY1SxhuwsUqN1CEZ5g4adsbmJsKm+ZbUVm4g== Private-MAC: b85ca0eb7c612df5d18af85128821bd53faaa3ef '); $this->assertSame('nistp256', $key->getCurve()); PuTTY::setComment('ecdsa-key-20181105'); $this->assertSame($expected, $key->getPrivateKey('PuTTY')); $key = new ECDSA; $key->load($expected = 'ecdsa-sha2-nistp256 AAAAE2VjZHNhLXNoYTItbmlzdHAyNTYAAAAIbmlzdHAyNTYAAABBBJEXCsWA8s18m25MJlVE1urbXPYFi4q8oMbb2H0kE2f5WPxizsKXRmb1J68paXQizryL9fC4FTqICJ1+UnaPfk0= ecdsa-key-20181105'); $this->assertSame('nistp256', $key->getCurve()); OpenSSH::setComment('ecdsa-key-20181105'); $this->assertSame($expected, $key->getPublicKey('OpenSSH')); } public function testPuTTYnistp384() { $key = new ECDSA; $key->load($expected = 'PuTTY-User-Key-File-2: ecdsa-sha2-nistp384 Encryption: none Comment: ecdsa-key-20181105 Public-Lines: 3 AAAAE2VjZHNhLXNoYTItbmlzdHAzODQAAAAIbmlzdHAzODQAAABhBOI53wHG3Cdc AJZq5PXWZAEAxxsNVFQlQgOX9toWEOgqQF5LbK2nWLKRvaHMzocUXaTYZDccSS0A TZFPT3j1Er1LU9cu4PHpyS07v262jdzkxIvKCPcAeISuV80MC7rHog== Private-Lines: 2 AAAAMQCEMkGMDg6N7bUqdvLXe0YmY4qBSi8hmAuMvU38RDoVFVmV+R4RYmMueyrX be9Oyus= Private-MAC: 97a990a3d5f6b8f268d4be9c4ab9ebfd8fa79849 '); $this->assertSame('nistp384', $key->getCurve()); PuTTY::setComment('ecdsa-key-20181105'); $this->assertSame($expected, $key->getPrivateKey('PuTTY')); $key = new ECDSA; $key->load($expected = 'ecdsa-sha2-nistp384 AAAAE2VjZHNhLXNoYTItbmlzdHAzODQAAAAIbmlzdHAzODQAAABhBOI53wHG3CdcAJZq5PXWZAEAxxsNVFQlQgOX9toWEOgqQF5LbK2nWLKRvaHMzocUXaTYZDccSS0ATZFPT3j1Er1LU9cu4PHpyS07v262jdzkxIvKCPcAeISuV80MC7rHog== ecdsa-key-20181105'); $this->assertSame('nistp384', $key->getCurve()); OpenSSH::setComment('ecdsa-key-20181105'); $this->assertSame($expected, $key->getPublicKey('OpenSSH')); } public function testPuTTYnistp521() { $key = new ECDSA; $key->load($expected = 'PuTTY-User-Key-File-2: ecdsa-sha2-nistp521 Encryption: none Comment: ecdsa-key-20181105 Public-Lines: 4 AAAAE2VjZHNhLXNoYTItbmlzdHA1MjEAAAAIbmlzdHA1MjEAAACFBAF1Eg0MjaJw ooFj6HCNh4RWbvmQRY+sdczJyBdT3EaTc/6IUcCfW7w7rAeRp2CDdE9RlAVD8IuL qW7DJH06Xeov8wBO5G6jUqXu0rlHsOSiC6VcCxBJuWVNB1IorHnS7PX0f6HdLlIE me73P77drqpn5YY0XLtP6hFrF7H5XfCxpNyaJA== Private-Lines: 2 AAAAQgHJl8/dIArolFymdzhagXCfd2l8UF3CQXWGVGDQ0R04nnntlyztYiVdRXXK r84NnzS7dJcAsR9YaUOZ69NRKNiUAQ== Private-MAC: 6d49ce289b85549a43d74422dd8bb3ba8798c72c '); $this->assertSame('nistp521', $key->getCurve()); PuTTY::setComment('ecdsa-key-20181105'); $this->assertSame($expected, $key->getPrivateKey('PuTTY')); $key = new ECDSA; $key->load($expected = 'ecdsa-sha2-nistp521 AAAAE2VjZHNhLXNoYTItbmlzdHA1MjEAAAAIbmlzdHA1MjEAAACFBAF1Eg0MjaJwooFj6HCNh4RWbvmQRY+sdczJyBdT3EaTc/6IUcCfW7w7rAeRp2CDdE9RlAVD8IuLqW7DJH06Xeov8wBO5G6jUqXu0rlHsOSiC6VcCxBJuWVNB1IorHnS7PX0f6HdLlIEme73P77drqpn5YY0XLtP6hFrF7H5XfCxpNyaJA== ecdsa-key-20181105'); $this->assertSame('nistp521', $key->getCurve()); OpenSSH::setComment('ecdsa-key-20181105'); $this->assertSame($expected, $key->getPublicKey('OpenSSH')); } public function testPuTTYed25519() { $key = new ECDSA; $key->load($expected = 'PuTTY-User-Key-File-2: ssh-ed25519 Encryption: none Comment: ed25519-key-20181105 Public-Lines: 2 AAAAC3NzaC1lZDI1NTE5AAAAIC6I6RyYAqtBcWXws9EDqGbhFtc5rKG4NMn/G7te mQtu Private-Lines: 1 AAAAIAHu1uI7dxFzo/SleEI2CekXKmgqlXwOgvfaRWxiX4Jd Private-MAC: 8a06821a1c8b8b40fc40f876e543c4ea3fb81bb9 '); $this->assertSame('Ed25519', $key->getCurve()); PuTTY::setComment('ed25519-key-20181105'); $this->assertSame($expected, $key->getPrivateKey('PuTTY')); $key = new ECDSA; $key->load($expected = 'ssh-ed25519 AAAAC3NzaC1lZDI1NTE5AAAAIC6I6RyYAqtBcWXws9EDqGbhFtc5rKG4NMn/G7temQtu ed25519-key-20181105'); $this->assertSame('Ed25519', $key->getCurve()); OpenSSH::setComment('ed25519-key-20181105'); $this->assertSame($expected, $key->getPublicKey('OpenSSH')); } public function testlibsodium() { if (!function_exists('sodium_crypto_sign_keypair')) { self::markTestSkipped('libsodium extension is not available.'); } $kp = sodium_crypto_sign_keypair(); $key = new ECDSA; $key->load($expected = sodium_crypto_sign_secretkey($kp)); $this->assertSame('Ed25519', $key->getCurve()); $this->assertSame($expected, $key->getPrivateKey('libsodium')); $key = new ECDSA; $key->load($expected = sodium_crypto_sign_publickey($kp)); $this->assertSame('Ed25519', $key->getCurve()); $this->assertSame($expected, $key->getPublicKey('libsodium')); } // ssh-keygen -t ed25519 public function testOpenSSHPrivateKey() { $key = new ECDSA; $key->load('-----BEGIN OPENSSH PRIVATE KEY----- b3BlbnNzaC1rZXktdjEAAAAABG5vbmUAAAAEbm9uZQAAAAAAAAABAAAAMwAAAAtzc2gtZW QyNTUxOQAAACCpm7dS1/WDTW+uuhp2+aFLPKaJle6+oJqDGLXhlQAX4AAAAJg8TmN5PE5j eQAAAAtzc2gtZWQyNTUxOQAAACCpm7dS1/WDTW+uuhp2+aFLPKaJle6+oJqDGLXhlQAX4A AAAEDltCTSbrr42IS4hhkS6ly0W2XItRQwxjLT+03bIyA+V6mbt1LX9YNNb666Gnb5oUs8 pomV7r6gmoMYteGVABfgAAAAD3ZhZ3JhbnRAdmFncmFudAECAwQFBg== -----END OPENSSH PRIVATE KEY-----'); $this->assertSame('Ed25519', $key->getCurve()); // testing this key is a little difficult because of this format's // two back to back checkint fields. both fields correspond to the // same randomly generated number. ostensibly this let's you verify // successful decryption of encrypted keys but phpseclib doesn't // support encrypted keys // none-the-less, because of the randomized component we can't easily // see if the key string is equal to another known string $key2 = new ECDSA; $key2->load($key->getPrivateKey('OpenSSH')); $this->assertSame('Ed25519', $key2->getCurve()); } // from https://www.w3.org/TR/xmldsig-core/#sec-RFC4050Compat public function testXMLKey() { $key = new ECDSA; $key->load($orig = ' '); $this->assertSame('nistp256', $key->getCurve()); XML::enableRFC4050Syntax(); $dom = new DOMDocument(); $dom->preserveWhiteSpace = false; $dom->loadXML($orig); $expected = $dom->C14N(); //$dom = new DOMDocument(); //$dom->preserveWhiteSpace = false; $dom->loadXML($key->getPublicKey('XML')); $actual = $dom->C14N(); $this->assertSame($expected, $actual); } public function testToPublicKey() { $key = new ECDSA; $key->load('-----BEGIN PRIVATE KEY----- MFICAQEwBwYDK2VwBQAEIgQgS5tTLrcNRaml4g5CgGeMvptuXuSrcrFbl+zVSxHD H76BIDXmiVv2hLjr5MhZENlKIuz0ak1hUO8MdZ2vgY/nGcUV -----END PRIVATE KEY-----'); $this->assertInternalType('string', (string) $key->getPublicKey()); } public static function assertSame($expected, $actual, $message = '') { $expected = str_replace("\r\n", "\n", $expected); $actual = str_replace("\r\n", "\n", $actual); return parent::assertSame($expected, $actual, $message); } }