// Copyright 2018 Google Inc. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // /////////////////////////////////////////////////////////////////////////////// #include "tink/subtle/pem_parser_boringssl.h" #include #include #include #include #include #include "gmock/gmock.h" #include "gtest/gtest.h" #include "absl/status/status.h" #include "absl/strings/ascii.h" #include "absl/strings/escaping.h" #include "absl/strings/str_cat.h" #include "absl/strings/string_view.h" #include "openssl/bio.h" #include "openssl/bn.h" #include "openssl/evp.h" #include "openssl/pem.h" #include "openssl/rsa.h" #include "tink/internal/bn_util.h" #include "tink/internal/err_util.h" #include "tink/internal/rsa_util.h" #include "tink/internal/ssl_unique_ptr.h" #include "tink/internal/ssl_util.h" #include "tink/subtle/subtle_util_boringssl.h" #include "tink/util/secret_data.h" #include "tink/util/status.h" #include "tink/util/statusor.h" #include "tink/util/test_matchers.h" namespace crypto { namespace tink { namespace subtle { namespace { using ::crypto::tink::test::IsOk; using ::crypto::tink::test::StatusIs; using ::testing::Eq; using ::testing::Not; using ::testing::NotNull; using ::testing::Test; using ::testing::TestWithParam; using ::testing::ValuesIn; // Test vectors for ECDSA were generated using the `openssl` command. // // 1. Generate private PEM file. In the command below, the following values were // used for the -name flag: {prime256v1, secp384r1, secp521r1}. // // $ openssl ecparam -genkey -name prime256v1 -noout -out ec-key-pair.pem // // 2. Generate public PEM file from private PEM file. // // $ openssl ec -in ec-key-pair.pem -pubout -out pub.pem // // 3. Print public X, Y and private key components. The public component is // obtained by removing the leading "04" character (which indicates that the key // is not compressed) and splitting the remaning bytes in two. The first half is // X and the 2nd half is Y. // // $ openssl ec -in ec-key-pair.pem -text -param_enc explicit -noout struct EcKeyTestVector { // EC format subtle::EllipticCurveType curve; std::string pub_x_hex_str; std::string pub_y_hex_str; std::string priv_hex_str; // PEM format std::string pub_pem; std::string priv_pem; }; std::vector GetEcKeyTestVectors() { return { { /*.curve=*/subtle::NIST_P256, /*.pub_x_hex_str=*/ "1455cfd594d44df125f1ff643636740c6cc59972091fee6fa9b8d3897d59b0e0", /*.pub_y_hex_str=*/ "d0b655238d8c0cebbfde77b1fda62ad19ccc6bf25a4ebf5637d3597983094363", /*.priv_hex_str=*/ "8485FB768E109D14BE1E219D4D806523308E0E401DB1DE95DC938E8903C49B2C", /*.pub_pem=*/R"(-----BEGIN PUBLIC KEY----- MFkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDQgAEFFXP1ZTUTfEl8f9kNjZ0DGzFmXIJ H+5vqbjTiX1ZsODQtlUjjYwM67/ed7H9pirRnMxr8lpOv1Y301l5gwlDYw== -----END PUBLIC KEY-----)", /*.priv_pem=*/R"(-----BEGIN EC PRIVATE KEY----- MHcCAQEEIISF+3aOEJ0Uvh4hnU2AZSMwjg5AHbHeldyTjokDxJssoAoGCCqGSM49 AwEHoUQDQgAEFFXP1ZTUTfEl8f9kNjZ0DGzFmXIJH+5vqbjTiX1ZsODQtlUjjYwM 67/ed7H9pirRnMxr8lpOv1Y301l5gwlDYw== -----END EC PRIVATE KEY-----)", }, { /*.curve=*/subtle::NIST_P256, /*.pub_x_hex_str=*/ "ee21893b340260360f1ae3d26bf0a066eadc8c63690b2f1de308220800d9d1ab", /*.pub_y_hex_str=*/ "d334a5917d2be49475af2454feea41d4418ea99eec791d1a0cc1c2890f8b33ee", /*.priv_hex_str=*/ "cac853f79a95c7d8697d0469ccda4faf940d80d1e0c81ffa0e6082ed9a85654b", /*.pub_pem=*/R"(-----BEGIN PUBLIC KEY----- MFkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDQgAE7iGJOzQCYDYPGuPSa/CgZurcjGNp Cy8d4wgiCADZ0avTNKWRfSvklHWvJFT+6kHUQY6pnux5HRoMwcKJD4sz7g== -----END PUBLIC KEY-----)", /*.priv_pem=*/R"(-----BEGIN EC PRIVATE KEY----- MHcCAQEEIMrIU/ealcfYaX0EaczaT6+UDYDR4Mgf+g5ggu2ahWVLoAoGCCqGSM49 AwEHoUQDQgAE7iGJOzQCYDYPGuPSa/CgZurcjGNpCy8d4wgiCADZ0avTNKWRfSvk lHWvJFT+6kHUQY6pnux5HRoMwcKJD4sz7g== -----END EC PRIVATE KEY-----)", }, { // example EcKey with a pub_x with a leading zero. /*.curve=*/subtle::NIST_P256, /*.pub_x_hex_str=*/ "00b02778da7b7bfd7094c36f847eb32b3077547da49c8ecf667f7acc3145693c", /*.pub_y_hex_str=*/ "710f3044af1cfe55f10d75de077297f7f2745cf2cd6cd4306f2aa72e367f7331", /*.priv_hex_str=*/ "f4b9b38fd2817527e5b6ef7910bce594f06d87990f31a2e9005594951e2a2f2f", /*.pub_pem=*/R"(-----BEGIN PUBLIC KEY----- MFkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDQgAEALAneNp7e/1wlMNvhH6zKzB3VH2k nI7PZn96zDFFaTxxDzBErxz+VfENdd4Hcpf38nRc8s1s1DBvKqcuNn9zMQ== -----END PUBLIC KEY-----)", /*.priv_pem=*/R"(-----BEGIN EC PRIVATE KEY----- MHcCAQEEIPS5s4/SgXUn5bbveRC85ZTwbYeZDzGi6QBVlJUeKi8voAoGCCqGSM49 AwEHoUQDQgAEALAneNp7e/1wlMNvhH6zKzB3VH2knI7PZn96zDFFaTxxDzBErxz+ VfENdd4Hcpf38nRc8s1s1DBvKqcuNn9zMQ== -----END EC PRIVATE KEY-----)", }, { // example EcKey with a priv with a leading zero. /*.curve=*/subtle::NIST_P256, /*.pub_x_hex_str=*/ "8b348ef165b90ea991c28f254a5caed293e42d6c64fa2db1f3991c007442bf68", /*.pub_y_hex_str=*/ "2d45951a61ac6f99d9c6745fe129e86c74001d3c13f506f9bb2d10fd492069b4", /*.priv_hex_str=*/ "006484950d48016cc524078de3e3216258d2bc563f2318cc49f0301059f5fd61", /*.pub_pem=*/R"(-----BEGIN PUBLIC KEY----- MFkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDQgAEizSO8WW5DqmRwo8lSlyu0pPkLWxk +i2x85kcAHRCv2gtRZUaYaxvmdnGdF/hKehsdAAdPBP1Bvm7LRD9SSBptA== -----END PUBLIC KEY-----)", /*.priv_pem=*/R"(-----BEGIN EC PRIVATE KEY----- MHcCAQEEIABkhJUNSAFsxSQHjePjIWJY0rxWPyMYzEnwMBBZ9f1hoAoGCCqGSM49 AwEHoUQDQgAEizSO8WW5DqmRwo8lSlyu0pPkLWxk+i2x85kcAHRCv2gtRZUaYaxv mdnGdF/hKehsdAAdPBP1Bvm7LRD9SSBptA== -----END EC PRIVATE KEY-----)", }, { /*.curve=*/subtle::NIST_P384, /*.pub_x_hex_str=*/ "49b1a78537281c81984e00092f04c22c610cac2aba7a3de992bf6ad22305d2d54501" "87" "57ed823c643334e18d95b2e642", /*.pub_y_hex_str=*/ "d2a851445c5da0bf0d543eaad5ff98634483c549d96045243121ed6d5c9ba64dab65" "6a" "6d25e018b01c4d3ab3f1738989", /*.priv_hex_str=*/ "0254cd5840eec13b0d68ba08fdbc147c22906046ecb2fca2625294be74dea29aa370" "fd" "830985d278099644ecf89167cd", /*.pub_pem=*/R"(-----BEGIN PUBLIC KEY----- MHYwEAYHKoZIzj0CAQYFK4EEACIDYgAESbGnhTcoHIGYTgAJLwTCLGEMrCq6ej3p kr9q0iMF0tVFAYdX7YI8ZDM04Y2VsuZC0qhRRFxdoL8NVD6q1f+YY0SDxUnZYEUk MSHtbVybpk2rZWptJeAYsBxNOrPxc4mJ -----END PUBLIC KEY-----)", /*.priv_pem=*/R"(-----BEGIN EC PRIVATE KEY----- MIGkAgEBBDACVM1YQO7BOw1ougj9vBR8IpBgRuyy/KJiUpS+dN6imqNw/YMJhdJ4 CZZE7PiRZ82gBwYFK4EEACKhZANiAARJsaeFNygcgZhOAAkvBMIsYQysKrp6PemS v2rSIwXS1UUBh1ftgjxkMzThjZWy5kLSqFFEXF2gvw1UPqrV/5hjRIPFSdlgRSQx Ie1tXJumTatlam0l4BiwHE06s/FziYk= -----END EC PRIVATE KEY-----)", }, { /*.curve=*/subtle::NIST_P384, /*.pub_x_hex_str=*/ "82de2530a8d589149c8a60fdd529ed7a465db62d7412771a7ec40a69be139226b609" "06" "cc784007d8e28a79dca528e66c", /*.pub_y_hex_str=*/ "c41f7532b8325aad3f1dddebddb702ebe70259bb5730e6bc4a75baec0d85c52d0d00" "c8" "e372d1da0d1ca10136e4cfd262", /*.priv_hex_str=*/ "a6a8415b526418966758cfda45c19b4fe0ac4cf06d301b195ffea231d0eda67a54fb" "7c" "bc12470296e29e86359de53aee", /*.pub_pem=*/R"(-----BEGIN PUBLIC KEY----- MHYwEAYHKoZIzj0CAQYFK4EEACIDYgAEgt4lMKjViRScimD91SntekZdti10Enca fsQKab4Tkia2CQbMeEAH2OKKedylKOZsxB91MrgyWq0/Hd3r3bcC6+cCWbtXMOa8 SnW67A2FxS0NAMjjctHaDRyhATbkz9Ji -----END PUBLIC KEY-----)", /*.priv_pem=*/R"(-----BEGIN EC PRIVATE KEY----- MIGkAgEBBDCmqEFbUmQYlmdYz9pFwZtP4KxM8G0wGxlf/qIx0O2melT7fLwSRwKW 4p6GNZ3lOu6gBwYFK4EEACKhZANiAASC3iUwqNWJFJyKYP3VKe16Rl22LXQSdxp+ xAppvhOSJrYJBsx4QAfY4op53KUo5mzEH3UyuDJarT8d3evdtwLr5wJZu1cw5rxK dbrsDYXFLQ0AyONy0doNHKEBNuTP0mI= -----END EC PRIVATE KEY-----)", }, { /*.curve=*/subtle::NIST_P521, /*.pub_x_hex_str=*/ "01d09ee2f33ce601d8594b09e668e128a7708ce752ef589d1a2c405523db0b68a0cb" "58" "60359b12c5371fc462f4142339ca7ff2550833f0a64887951ddb64e7d139d5", /*.pub_y_hex_str=*/ "01b45ce12804afcf17fbd60728d362d4787b750d561e52144fd517807ddaa2b396be" "d9" "98227a5696d9c997a1cf0b6f1a3724ce25c7396dc2ea62c4bdf467061916e3", /*.priv_hex_str=*/ "01f1913a921271c06686482a51dbf2c853aefbcc62b2b23d473a4c818d570e555667" "42" "edd9f05d0532f73d40c11d3d31c3734e4470cc0491ad911a209f1e88dcd712", /*.pub_pem=*/R"(-----BEGIN PUBLIC KEY----- MIGbMBAGByqGSM49AgEGBSuBBAAjA4GGAAQB0J7i8zzmAdhZSwnmaOEop3CM51Lv WJ0aLEBVI9sLaKDLWGA1mxLFNx/EYvQUIznKf/JVCDPwpkiHlR3bZOfROdUBtFzh KASvzxf71gco02LUeHt1DVYeUhRP1ReAfdqis5a+2ZgielaW2cmXoc8Lbxo3JM4l xzltwupixL30ZwYZFuM= -----END PUBLIC KEY-----)", /*.priv_pem=*/R"(-----BEGIN EC PRIVATE KEY----- MIHcAgEBBEIB8ZE6khJxwGaGSCpR2/LIU677zGKysj1HOkyBjVcOVVZnQu3Z8F0F Mvc9QMEdPTHDc05EcMwEka2RGiCfHojc1xKgBwYFK4EEACOhgYkDgYYABAHQnuLz POYB2FlLCeZo4SincIznUu9YnRosQFUj2wtooMtYYDWbEsU3H8Ri9BQjOcp/8lUI M/CmSIeVHdtk59E51QG0XOEoBK/PF/vWByjTYtR4e3UNVh5SFE/VF4B92qKzlr7Z mCJ6VpbZyZehzwtvGjckziXHOW3C6mLEvfRnBhkW4w== -----END EC PRIVATE KEY-----)", }, { /*.curve=*/subtle::NIST_P521, /*.pub_x_hex_str=*/ "0108803f92f8449fdfca02c8c2b49643f407f63dda728ad38e3598b887b5831ab063" "d9" "60c5fd321ee597f4273fc0596015ce406515a2ab24a7c96a44802d74c3ac7b", /*.pub_y_hex_str=*/ "01f216dc0f590b920d9c026e0aedc2b1cfe85d4f2d607db632395c7f64c053285936" "33" "635b6ad8bf51d2ee70c88000e96fd340601211c1d1eb0b32773806506b47b0", /*.priv_hex_str=*/ "0010a207e650cf531c98c0c6d1cfdb88a5ee57f02734cbab93b8ae30d9dac0845d17" "61" "9be33f9aeaeab35401e63a149a87ae45b45bf2fea125d96c5d418d96bcda85", /*.pub_pem=*/R"(-----BEGIN PUBLIC KEY----- MIGbMBAGByqGSM49AgEGBSuBBAAjA4GGAAQBCIA/kvhEn9/KAsjCtJZD9Af2Pdpy itOONZi4h7WDGrBj2WDF/TIe5Zf0Jz/AWWAVzkBlFaKrJKfJakSALXTDrHsB8hbc D1kLkg2cAm4K7cKxz+hdTy1gfbYyOVx/ZMBTKFk2M2Nbati/UdLucMiAAOlv00Bg EhHB0esLMnc4BlBrR7A= -----END PUBLIC KEY-----)", /*.priv_pem=*/R"(-----BEGIN EC PRIVATE KEY----- MIHcAgEBBEIAEKIH5lDPUxyYwMbRz9uIpe5X8Cc0y6uTuK4w2drAhF0XYZvjP5rq 6rNUAeY6FJqHrkW0W/L+oSXZbF1BjZa82oWgBwYFK4EEACOhgYkDgYYABAEIgD+S +ESf38oCyMK0lkP0B/Y92nKK0441mLiHtYMasGPZYMX9Mh7ll/QnP8BZYBXOQGUV oqskp8lqRIAtdMOsewHyFtwPWQuSDZwCbgrtwrHP6F1PLWB9tjI5XH9kwFMoWTYz Y1tq2L9R0u5wyIAA6W/TQGASEcHR6wsydzgGUGtHsA== -----END EC PRIVATE KEY-----)", }, }; } // Holds test vectors for the PemParser. The original private-key pem text was // taken from // google3/third_party/tink/java_src/src/test/java/com/google/crypto/tink/subtle/PemKeyTypeTest.java. // The components and public-key PEM version were extracted using // // $ openssl rsa -in -pubout -text struct RsaKeyTestVector { // RSA parameters. absl::string_view modulus_hex_str; absl::string_view public_exponent_hex_str; absl::string_view private_exponent_hex_str; absl::string_view p_hex_str; absl::string_view q_hex_str; absl::string_view dp_hex_str; absl::string_view dq_hex_str; absl::string_view coefficient_hex_str; // PEM forms. absl::string_view public_pem; absl::string_view private_pem; }; std::vector GetRsaKeyTestVectors() { return { {/*.modulus_hex_str=*/ "00bc067ea9038c24b063cac6146b26793499cc8a93985208596b9700acd4e51a580413" "316cc5acc5b499d4781421ba9b0d8af75ae56b6179d5a7fc2098f2fc4d366a6a4166b1" "5f2254db1cb3ce5dd4ab80bd8bd5adb5df34b602c319d4d004299c06e5e2437fd626e2" "84c29eeb79d1820b830b706072efa2fd1c8898d1eaaf39fb9f54ce7671ea2b5512a429" "0d3ec58bb41639a19be6630b1c27059b9a32505bebc6f42b301f9fb2cf2b624c1b6598" "702bbeaed38b5fd9941d661ff6adca65ffb251d1f314bced0861fa30ec676e2129e5ac" "ba03a6cb7594f93c60cef9b2aeee45edc6aadd31f841ee1f37fd63ccff3cebbb018a3d" "631b3d498a79348704bb419f", /*.public_exponent_hex_str=*/"010001", /*.private_exponent_hex_str=*/ "718b1a81c5faa34d4175fa17ea7cd944c27b9a5376f052ca6d064b0a13a6263a707b86" "a540da0ca9fb1b2b483cf60b1c2a872504d5cb8f5f4e8a1ac54236ca09ca4950254b87" "3f9c2e952e9fb859ed17595f50320e5a33e295d86b88eff5138b7d3ee55c0d9eacecad" "6f39b8c95f9340906a1ffa9e6dc7e7418bdb7d28539897297c7da5358867e60dfe8c76" "fbf5a6a4c064e0f6af1bf3c9640cbee007aea3be81017b726d088b69957b844f951fac" "323ff3e79fd67daf32a3dce862320ab0f4a78255f740f7381396ab8d55f80c1b38a149" "f2418a2747795b44b14092fa17d215ae0e33c78997471ab971628b897776a80bbdee7e" "ddf60eca6cecba50f32281", /*.p_hex_str=*/ "00e3f152467849f4c2d87f5a6506453878b7547996b14067966e336399e2be6a8c2ea8" "f065251f05e8bdcde4733d7084523432f3aad6b75990efadbedbce91cb097ce2b85dfa" "22fd3ca12a86198d76d31009531351f07246937cd7b1d81d3675f8afd759d1279edb13" "06e12f757baf368e265fb429775b1b4d16d88a7b009f00c7", /*.q_hex_str=*/ "00d32b57f3d29f741c33ccf95d98b93b4efd56af0f9bc98f9089d8761ecccf65e0ba7f" "eebfbef8fce3bb38a4a5f9614d47a28f137238518ab47f0a12912dc951b1d540632bc5" "70338b17ee4f866767b7ba98ac6a057f1a2b27101ee584e9e82d4a83f31ef14d11f1d9" "105dc38e3052a506982ff3679e760c7ad186f361284c9069", /*.dp_hex_str=*/ "00c536bf9694f077c2350a4aad69756e5c9351953959f67d295c033e43a0385b7b19cb" "b4e1edf21f6cb4fb7492782fe76c30197d54ec1d0a7329cbcb7be607a2017d79b3462b" "eb25ead50e33a3dc0f58a1614fed4151a5ad8661d744d9d4bc8fe9304a443d7fe82367" "1ce6abe71bb206a38a73f72e8143e4251885159b42784f75", /*.dq_hex_str=*/ "367023116147e807e936bb466cbbbbd5662bf59f617af9beba3a8a60f04dbb26cf0d72" "000e7c63bd55a389969c0e807caa24964fc8c304adf95e20613adb7e6b08ddbb732a47" "fd91ab0ead83a99eac57b74a235edd6062a5845b62b1fc16f5ae130c16fafff25355b1" "096b0379e3a45569e05ab068c267ff358ac3ad55553f99", /*.coefficient_hex_str=*/ "3a47030f3e868a1457f0290ae5e8e1a95fef23f9b8d90b20d8e75d138c94bc01e9922d" "60126a8af6c7142ebb32ced086b52cf1fa5dd389bce61bf6c66ec4c9d47cd08a8b5aad" "7d9f48202003cc19bdce05d1e41b568e60c43aec44a23031282bd46ac47ea77ddf2b8a" "303a784e27c73f9e0dd5b5f93e7be71361c2db675130d4", /*.public_pem=*/ R"(-----BEGIN PUBLIC KEY----- MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAvAZ+qQOMJLBjysYUayZ5 NJnMipOYUghZa5cArNTlGlgEEzFsxazFtJnUeBQhupsNivda5WthedWn/CCY8vxN NmpqQWaxXyJU2xyzzl3Uq4C9i9Wttd80tgLDGdTQBCmcBuXiQ3/WJuKEwp7redGC C4MLcGBy76L9HIiY0eqvOfufVM52ceorVRKkKQ0+xYu0Fjmhm+ZjCxwnBZuaMlBb 68b0KzAfn7LPK2JMG2WYcCu+rtOLX9mUHWYf9q3KZf+yUdHzFLztCGH6MOxnbiEp 5ay6A6bLdZT5PGDO+bKu7kXtxqrdMfhB7h83/WPM/zzruwGKPWMbPUmKeTSHBLtB nwIDAQAB -----END PUBLIC KEY-----)", /*.private_pem=*/ R"(-----BEGIN PRIVATE KEY----- MIIEvQIBADANBgkqhkiG9w0BAQEFAASCBKcwggSjAgEAAoIBAQC8Bn6pA4wksGPK xhRrJnk0mcyKk5hSCFlrlwCs1OUaWAQTMWzFrMW0mdR4FCG6mw2K91rla2F51af8 IJjy/E02ampBZrFfIlTbHLPOXdSrgL2L1a213zS2AsMZ1NAEKZwG5eJDf9Ym4oTC nut50YILgwtwYHLvov0ciJjR6q85+59UznZx6itVEqQpDT7Fi7QWOaGb5mMLHCcF m5oyUFvrxvQrMB+fss8rYkwbZZhwK76u04tf2ZQdZh/2rcpl/7JR0fMUvO0IYfow 7GduISnlrLoDpst1lPk8YM75sq7uRe3Gqt0x+EHuHzf9Y8z/POu7AYo9Yxs9SYp5 NIcEu0GfAgMBAAECggEAcYsagcX6o01BdfoX6nzZRMJ7mlN28FLKbQZLChOmJjpw e4alQNoMqfsbK0g89gscKoclBNXLj19OihrFQjbKCcpJUCVLhz+cLpUun7hZ7RdZ X1AyDloz4pXYa4jv9ROLfT7lXA2erOytbzm4yV+TQJBqH/qebcfnQYvbfShTmJcp fH2lNYhn5g3+jHb79aakwGTg9q8b88lkDL7gB66jvoEBe3JtCItplXuET5UfrDI/ 8+ef1n2vMqPc6GIyCrD0p4JV90D3OBOWq41V+AwbOKFJ8kGKJ0d5W0SxQJL6F9IV rg4zx4mXRxq5cWKLiXd2qAu97n7d9g7KbOy6UPMigQKBgQDj8VJGeEn0wth/WmUG RTh4t1R5lrFAZ5ZuM2OZ4r5qjC6o8GUlHwXovc3kcz1whFI0MvOq1rdZkO+tvtvO kcsJfOK4Xfoi/TyhKoYZjXbTEAlTE1HwckaTfNex2B02dfiv11nRJ57bEwbhL3V7 rzaOJl+0KXdbG00W2Ip7AJ8AxwKBgQDTK1fz0p90HDPM+V2YuTtO/VavD5vJj5CJ 2HYezM9l4Lp/7r+++PzjuzikpflhTUeijxNyOFGKtH8KEpEtyVGx1UBjK8VwM4sX 7k+GZ2e3upisagV/GisnEB7lhOnoLUqD8x7xTRHx2RBdw44wUqUGmC/zZ552DHrR hvNhKEyQaQKBgQDFNr+WlPB3wjUKSq1pdW5ck1GVOVn2fSlcAz5DoDhbexnLtOHt 8h9stPt0kngv52wwGX1U7B0KcynLy3vmB6IBfXmzRivrJerVDjOj3A9YoWFP7UFR pa2GYddE2dS8j+kwSkQ9f+gjZxzmq+cbsgajinP3LoFD5CUYhRWbQnhPdQKBgDZw IxFhR+gH6Ta7Rmy7u9VmK/WfYXr5vro6imDwTbsmzw1yAA58Y71Vo4mWnA6AfKok lk/IwwSt+V4gYTrbfmsI3btzKkf9kasOrYOpnqxXt0ojXt1gYqWEW2Kx/Bb1rhMM Fvr/8lNVsQlrA3njpFVp4FqwaMJn/zWKw61VVT+ZAoGAOkcDDz6GihRX8CkK5ejh qV/vI/m42Qsg2OddE4yUvAHpki1gEmqK9scULrsyztCGtSzx+l3TibzmG/bGbsTJ 1HzQiotarX2fSCAgA8wZvc4F0eQbVo5gxDrsRKIwMSgr1GrEfqd93yuKMDp4TifH P54N1bX5PnvnE2HC22dRMNQ= -----END PRIVATE KEY-----)"}}; } class PemParserRsaTest : public Test { public: PemParserRsaTest() : rsa_(RSA_new()) {} void SetUp() override { // Create a new RSA key and output to PEM. ASSERT_THAT(rsa_, NotNull()); internal::SslUniquePtr e(BN_new()); ASSERT_THAT(e, NotNull()); ASSERT_EQ(BN_set_word(e.get(), RSA_F4), 1); // Generate a 2048 bits RSA key pair. ASSERT_EQ(RSA_generate_key_ex(rsa_.get(), 2048, e.get(), /*cb=*/nullptr), 1) << internal::GetSslErrors(); // Write keys to PEM. internal::SslUniquePtr pub_key_pem_bio(BIO_new(BIO_s_mem())); internal::SslUniquePtr prv_key_pem_bio(BIO_new(BIO_s_mem())); // Write in PEM format. ASSERT_EQ(PEM_write_bio_RSA_PUBKEY(pub_key_pem_bio.get(), rsa_.get()), 1) << internal::GetSslErrors(); ASSERT_EQ(PEM_write_bio_RSAPrivateKey(prv_key_pem_bio.get(), rsa_.get(), /*enc=*/nullptr, /*kstr=*/nullptr, /*klen=*/0, /*cb=*/nullptr, /*u=*/nullptr), 1) << internal::GetSslErrors(); pem_rsa_pub_key_.resize(BIO_number_written(pub_key_pem_bio.get())); pem_rsa_prv_key_.resize(BIO_number_written(prv_key_pem_bio.get())); ASSERT_EQ(BIO_read(pub_key_pem_bio.get(), &pem_rsa_pub_key_[0], BIO_number_written(pub_key_pem_bio.get())), BIO_number_written(pub_key_pem_bio.get())); ASSERT_EQ(BIO_read(prv_key_pem_bio.get(), &pem_rsa_prv_key_[0], BIO_number_written(prv_key_pem_bio.get())), BIO_number_written(prv_key_pem_bio.get())); } // Utility function that sets expectations to test that `bn_str` equals `bn`. void ExpectBnEqual(absl::string_view bn_str, const BIGNUM *bn) { util::StatusOr expected_bn_str = internal::BignumToString(bn, BN_num_bytes(bn)); ASSERT_THAT(expected_bn_str, IsOk()); EXPECT_EQ(bn_str, *expected_bn_str); } protected: // PEM encoded 2048 bit RSA key pair. std::string pem_rsa_pub_key_; std::string pem_rsa_prv_key_; // Holds the RSA object. const internal::SslUniquePtr rsa_; }; // Corrupts `container` by modifying one the elements in the middle. template void Corrupt(ContainerType *container) { if (container->empty()) { return; } std::vector corrupted(container->begin(), container->end()); size_t pos = corrupted.size() / 2; corrupted[pos] ^= 1; container->assign(corrupted.begin(), corrupted.end()); } // Test we can correctly parse an RSA public key. TEST_F(PemParserRsaTest, ReadRsaPublicKey) { auto key = PemParser::ParseRsaPublicKey( absl::string_view(pem_rsa_pub_key_.data(), pem_rsa_pub_key_.size())); ASSERT_THAT(key, IsOk()) << internal::GetSslErrors(); // Verify exponent and modulus are correctly set. const BIGNUM *e_bn, *n_bn; RSA_get0_key(rsa_.get(), &n_bn, &e_bn, nullptr); ExpectBnEqual((*key)->e, e_bn); ExpectBnEqual((*key)->n, n_bn); } // Test we can correctly parse an RSA private key. TEST_F(PemParserRsaTest, ReadRsaPrivatekey) { auto key_statusor = PemParser::ParseRsaPrivateKey( absl::string_view(pem_rsa_prv_key_.data(), pem_rsa_prv_key_.size())); ASSERT_THAT(key_statusor, IsOk()) << internal::GetSslErrors(); // Verify exponents and modulus. auto key = *std::move(key_statusor); const BIGNUM *e_bn, *n_bn, *d_bn; RSA_get0_key(rsa_.get(), &n_bn, &e_bn, &d_bn); ExpectBnEqual(key->e, e_bn); ExpectBnEqual(key->n, n_bn); ExpectBnEqual(util::SecretDataAsStringView(key->d), d_bn); // Verify private key factors. const BIGNUM *p_bn, *q_bn; RSA_get0_factors(rsa_.get(), &p_bn, &q_bn); ExpectBnEqual(util::SecretDataAsStringView(key->p), p_bn); ExpectBnEqual(util::SecretDataAsStringView(key->q), q_bn); // Verify CRT parameters. const BIGNUM *dp_bn, *dq_bn, *crt_bn; RSA_get0_crt_params(rsa_.get(), &dp_bn, &dq_bn, &crt_bn); ExpectBnEqual(util::SecretDataAsStringView(key->dp), dp_bn); ExpectBnEqual(util::SecretDataAsStringView(key->dq), dq_bn); ExpectBnEqual(util::SecretDataAsStringView(key->crt), crt_bn); } using ParametrizedPemParserRsaTest = TestWithParam; TEST_P(ParametrizedPemParserRsaTest, WriteRsaPrivateKey) { RsaKeyTestVector test_vector = GetParam(); internal::RsaPrivateKey key; key.n = absl::HexStringToBytes(test_vector.modulus_hex_str); key.e = absl::HexStringToBytes(test_vector.public_exponent_hex_str); key.d = util::SecretDataFromStringView( absl::HexStringToBytes(test_vector.private_exponent_hex_str)); key.p = util::SecretDataFromStringView( absl::HexStringToBytes(test_vector.p_hex_str)); key.q = util::SecretDataFromStringView( absl::HexStringToBytes(test_vector.q_hex_str)); key.dp = util::SecretDataFromStringView( absl::HexStringToBytes(test_vector.dp_hex_str)); key.dq = util::SecretDataFromStringView( absl::HexStringToBytes(test_vector.dq_hex_str)); key.crt = util::SecretDataFromStringView( absl::HexStringToBytes(test_vector.coefficient_hex_str)); util::StatusOr pem_result = PemParser::WriteRsaPrivateKey(key); EXPECT_THAT(pem_result, IsOk()) << internal::GetSslErrors(); EXPECT_EQ(absl::StripAsciiWhitespace(*pem_result), test_vector.private_pem); } TEST_P(ParametrizedPemParserRsaTest, WriteRsaPublicKey) { RsaKeyTestVector test_vector = GetParam(); internal::RsaPublicKey key; key.n = absl::HexStringToBytes(test_vector.modulus_hex_str); key.e = absl::HexStringToBytes(test_vector.public_exponent_hex_str); auto pem_result = PemParser::WriteRsaPublicKey(key); EXPECT_THAT(pem_result, IsOk()); EXPECT_EQ(absl::StripAsciiWhitespace(*pem_result), test_vector.public_pem); } INSTANTIATE_TEST_SUITE_P(ParametrizedPemParserRsaTests, ParametrizedPemParserRsaTest, ValuesIn(GetRsaKeyTestVectors())); TEST_F(PemParserRsaTest, ReadRsaPublicKeyInvalid) { Corrupt(&pem_rsa_pub_key_); EXPECT_THAT( PemParser::ParseRsaPrivateKey( absl::string_view(pem_rsa_pub_key_.data(), pem_rsa_pub_key_.size())) .status(), Not(IsOk())); } TEST_F(PemParserRsaTest, ReadRsaPrivateKeyInvalid) { Corrupt(&pem_rsa_prv_key_); EXPECT_THAT( PemParser::ParseRsaPrivateKey( absl::string_view(pem_rsa_prv_key_.data(), pem_rsa_prv_key_.size())) .status(), Not(IsOk())); } using ParametrizedPemParserEcTest = TestWithParam; TEST_P(ParametrizedPemParserEcTest, ReadEcPublicKeySuccess) { EcKeyTestVector test_vector = GetParam(); auto ecdsa_key = PemParser::ParseEcPublicKey( absl::StripAsciiWhitespace(test_vector.pub_pem)); EXPECT_THAT(ecdsa_key, IsOk()) << internal::GetSslErrors(); auto x_hex_result = absl::BytesToHexString(ecdsa_key->get()->pub_x); auto y_hex_result = absl::BytesToHexString(ecdsa_key->get()->pub_y); EXPECT_EQ(test_vector.pub_x_hex_str, x_hex_result); EXPECT_EQ(test_vector.pub_y_hex_str, y_hex_result); EXPECT_EQ(test_vector.curve, ecdsa_key->get()->curve); } TEST_P(ParametrizedPemParserEcTest, ReadEcPrivateKeySuccess) { EcKeyTestVector test_vector = GetParam(); util::StatusOr> ecdsa_key = PemParser::ParseEcPrivateKey( absl::StripAsciiWhitespace(test_vector.priv_pem)); EXPECT_THAT(ecdsa_key, IsOk()) << internal::GetSslErrors(); std::string x_hex = absl::BytesToHexString((*ecdsa_key)->pub_x); std::string y_hex = absl::BytesToHexString((*ecdsa_key)->pub_y); std::string priv_hex = absl::BytesToHexString(util::SecretDataAsStringView((*ecdsa_key)->priv)); EXPECT_THAT(x_hex, Eq(test_vector.pub_x_hex_str)); EXPECT_THAT(y_hex, Eq(test_vector.pub_y_hex_str)); EXPECT_THAT(priv_hex, Eq(absl::AsciiStrToLower(test_vector.priv_hex_str))); EXPECT_THAT((*ecdsa_key)->curve, test_vector.curve); } TEST_P(ParametrizedPemParserEcTest, ReadEcPublicKeyInvalid) { EcKeyTestVector test_vector = GetParam(); std::string corrupt_pem = test_vector.pub_pem; Corrupt(&corrupt_pem); auto ecdsa_key = PemParser::ParseEcPublicKey(absl::StripAsciiWhitespace(corrupt_pem)); EXPECT_THAT(ecdsa_key.status(), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST_P(ParametrizedPemParserEcTest, ReadEcPrivateKeyInvalid) { EcKeyTestVector test_vector = GetParam(); std::string corrupt_pem = test_vector.pub_pem; Corrupt(&corrupt_pem); util::StatusOr> ecdsa_key = PemParser::ParseEcPrivateKey(absl::StripAsciiWhitespace(corrupt_pem)); EXPECT_THAT(ecdsa_key.status(), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST_P(ParametrizedPemParserEcTest, WriteEcPublicKeySucceeds) { EcKeyTestVector test_vector = GetParam(); // Load an EcKey with the test vector. SubtleUtilBoringSSL::EcKey ec_key; ec_key.curve = test_vector.curve; ec_key.pub_x = absl::HexStringToBytes(test_vector.pub_x_hex_str); ec_key.pub_y = absl::HexStringToBytes(test_vector.pub_y_hex_str); ec_key.priv = util::SecretDataFromStringView( absl::HexStringToBytes(test_vector.priv_hex_str)); // Check that converting the public key with WriteEcPublicKey() succeeds. util::StatusOr pem_material = PemParser::WriteEcPublicKey(ec_key); ASSERT_THAT(pem_material, IsOk()) << internal::GetSslErrors(); EXPECT_EQ(absl::StripAsciiWhitespace(*pem_material), absl::StripAsciiWhitespace(test_vector.pub_pem)); } TEST_P(ParametrizedPemParserEcTest, WriteEcPrivateKeySucceeds) { EcKeyTestVector test_vector = GetParam(); // Load an EcKey with the test vector. SubtleUtilBoringSSL::EcKey ec_key; ec_key.curve = test_vector.curve; ec_key.pub_x = absl::HexStringToBytes(test_vector.pub_x_hex_str); ec_key.pub_y = absl::HexStringToBytes(test_vector.pub_y_hex_str); ec_key.priv = util::SecretDataFromStringView( absl::HexStringToBytes(test_vector.priv_hex_str)); // Check that converting the private key with WriteEcPrivateKey() succeeds. util::StatusOr pem_material = PemParser::WriteEcPrivateKey(ec_key); ASSERT_THAT(pem_material, IsOk()); EXPECT_EQ(absl::StripAsciiWhitespace(*pem_material), absl::StripAsciiWhitespace(test_vector.priv_pem)); } INSTANTIATE_TEST_SUITE_P(ParametrizedPemParserEcTest, ParametrizedPemParserEcTest, ValuesIn(GetEcKeyTestVectors())); TEST(PemParserEcTest, NewKeyWriteAndReadPublicKeySuccess) { util::StatusOr ec_key = SubtleUtilBoringSSL::GetNewEcKey(EllipticCurveType::NIST_P256); ASSERT_THAT(ec_key, IsOk()); util::StatusOr public_pem = PemParser::WriteEcPublicKey(*ec_key); ASSERT_THAT(public_pem, IsOk()); util::StatusOr> public_key = PemParser::ParseEcPublicKey(*public_pem); EXPECT_THAT(public_key, IsOk()) << internal::GetSslErrors(); EXPECT_EQ((*public_key)->pub_x, ec_key->pub_x); EXPECT_EQ((*public_key)->pub_y, ec_key->pub_y); EXPECT_EQ((*public_key)->curve, ec_key->curve); } TEST(PemParserEcTest, NewKeyWriteAndReadPrivateKeySuccess) { util::StatusOr ec_key = SubtleUtilBoringSSL::GetNewEcKey(EllipticCurveType::NIST_P256); ASSERT_THAT(ec_key, IsOk()); util::StatusOr private_pem = PemParser::WriteEcPrivateKey(*ec_key); ASSERT_THAT(private_pem, IsOk()); util::StatusOr> parsed_ec_key = PemParser::ParseEcPrivateKey(*private_pem); EXPECT_THAT(parsed_ec_key, IsOk()) << internal::GetSslErrors(); EXPECT_EQ((*parsed_ec_key)->pub_x, ec_key->pub_x); EXPECT_EQ((*parsed_ec_key)->pub_y, ec_key->pub_y); EXPECT_EQ((*parsed_ec_key)->priv, ec_key->priv); EXPECT_EQ((*parsed_ec_key)->curve, ec_key->curve); } TEST(PemParserEcTest, ReadEcPublicKeyP224_Unimplemented) { constexpr absl::string_view kP224PublicKey = R"(-----BEGIN PUBLIC KEY----- ME4wEAYHKoZIzj0CAQYFK4EEACEDOgAE9PcDd+z3cVYhKnNbDVAXwDmShKBCPc88 sEUoYDu3Oi24YuZAFbwVIdX69RME4FB5PbxISleynMI= -----END PUBLIC KEY-----)"; auto ecdsa_key = PemParser::ParseEcPublicKey(absl::StripAsciiWhitespace(kP224PublicKey)); EXPECT_THAT(ecdsa_key.status(), StatusIs(absl::StatusCode::kUnimplemented)); } TEST(PemParserEcTest, ReadInvalidEcPublicKey) { util::StatusOr> ecdsa_key = PemParser::ParseEcPublicKey("invalid"); EXPECT_THAT(ecdsa_key.status(), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST(PemParserEcTest, ReadInvalidEcPrivateKey) { util::StatusOr> ecdsa_key = PemParser::ParseEcPrivateKey("invalid"); EXPECT_THAT(ecdsa_key.status(), StatusIs(absl::StatusCode::kInvalidArgument)); } // Makes sure parsing of a valid EC public key on secp256k1 fails because the // curve is unsupported. TEST(PemParserEcTest, ReadEcPublicKeyFailsBecauseSecp256k1Unsupported) { // Generate private key with: // > openssl ecparam -genkey -name secp256k1 -noout -out ec-key-pair.pem // Extract the public key: // > openssl ec -in ec-key-pair.pem -pubout constexpr absl::string_view kSecp256k1PublicKey = R"(-----BEGIN PUBLIC KEY----- MFYwEAYHKoZIzj0CAQYFK4EEAAoDQgAEC9naJNDkHKVBjfDK90szJegpzatlUcFO BLrJS8EVf4tMw52zdhXpKBF2FGpD54dNo+Ut2s6JIE+LoaX/FSvifw== -----END PUBLIC KEY-----)"; util::StatusOr> ecdsa_key = PemParser::ParseEcPublicKey( absl::StripAsciiWhitespace(kSecp256k1PublicKey)); // With BoringSSL parsing of the PEM key fails when an unsupported curve is // used [1]; Supported curves are defined here [2]. Tink doesn't distinguish // between an error caused by a malformed PEM and an unsupported group by // BoringSSL. On the other hand, with OpenSSL parsing succeeds, but this // curve is unsupported by Tink. As a consequence, this fails with two // different errors. // // [1]https://github.com/google/boringssl/blob/master/crypto/ec_extra/ec_asn1.c#L324 // [2]https://github.com/google/boringssl/blob/master/crypto/fipsmodule/ec/ec.c#L218 if (internal::IsBoringSsl()) { EXPECT_THAT(ecdsa_key.status(), StatusIs(absl::StatusCode::kInvalidArgument)); } else { EXPECT_THAT(ecdsa_key.status(), StatusIs(absl::StatusCode::kUnimplemented)); } } // Makes sure parsing of a valid EC private key on secp256k1 fails because the // curve is unsupported. TEST(PemParserEcTest, ReadEcPrivateKeyFailsBecauseSecp256k1Unsupported) { // Generate private key with: // > openssl ecparam -genkey -name secp256k1 -noout constexpr absl::string_view kSecp256k1PrivateKey = R"(-----BEGIN EC PRIVATE KEY----- MHQCAQEEIKSqexQyySWB705oPctFx2roLMHdfJ/W/WBISaRNu1UHoAcGBSuBBAAK oUQDQgAEC9naJNDkHKVBjfDK90szJegpzatlUcFOBLrJS8EVf4tMw52zdhXpKBF2 FGpD54dNo+Ut2s6JIE+LoaX/FSvifw== -----END EC PRIVATE KEY-----)"; util::StatusOr> ecdsa_key = PemParser::ParseEcPrivateKey( absl::StripAsciiWhitespace(kSecp256k1PrivateKey)); // PEM parsing fails in BoringSSL when the curve is unsupported, and Tink // doesn't distinguish between an error caused by a malformed PEM and an // unsupported group by BoringSSL. With OpenSSL parsing succeeds, but this // curve is unsupported by Tink. As a consequence, this fails with two // different errors. if (internal::IsBoringSsl()) { EXPECT_THAT(ecdsa_key.status(), StatusIs(absl::StatusCode::kInvalidArgument)); } else { EXPECT_THAT(ecdsa_key.status(), StatusIs(absl::StatusCode::kUnimplemented)); } } TEST(PemParserEcTest, ParseEncryptedEcPrivateKey_Invalid) { // This key was generated with the command: // openssl genpkey -algorithm ec -pkeyopt ec_paramgen_curve:prime256v1 // -aes128 using pass phrase "mypassword" constexpr absl::string_view kPrivateKey = R"(-----BEGIN ENCRYPTED PRIVATE KEY----- MIHsMFcGCSqGSIb3DQEFDTBKMCkGCSqGSIb3DQEFDDAcBAjurwMnDwdrOwICCAAw DAYIKoZIhvcNAgkFADAdBglghkgBZQMEAQIEEJHshE1SbT5XZN1bToPLsuAEgZAA xmCJjv1kTjWzwbE1SEM6lwMippywDf0JH+de4JwlrPiQAb5NExq96m6Per70tX4W iJ76WplZagsJzsAg/5gIJ/YcTry266rP2SBVTsuCY/GOh2vU/x6XFbPi9JCM0nvH GTi1cWyqIwzGqfw8ZGejtvg4SAGulZ7/MWVCZV51C6JakfY1v3z24BQG1m50jMs= -----END ENCRYPTED PRIVATE KEY-----)"; util::StatusOr> ecdsa_key = PemParser::ParseEcPrivateKey(absl::StripAsciiWhitespace(kPrivateKey)); EXPECT_THAT(ecdsa_key.status(), StatusIs(absl::StatusCode::kInvalidArgument)); } TEST(PemParserEcTest, WriteEcPublicKeyWithBadXFails) { util::StatusOr ec_key_statusor = SubtleUtilBoringSSL::GetNewEcKey(subtle::NIST_P256); ASSERT_THAT(ec_key_statusor, IsOk()); SubtleUtilBoringSSL::EcKey ec_key = *ec_key_statusor; Corrupt(&ec_key.pub_x); // Bad coordinates should generate a BoringSSL/OpenSSL's internal error. EXPECT_THAT(PemParser::WriteEcPublicKey(ec_key).status(), StatusIs(absl::StatusCode::kInternal)); } TEST(PemParserEcTest, WriteEcPublicKeyWithBadYFails) { util::StatusOr ec_key_statusor = SubtleUtilBoringSSL::GetNewEcKey(subtle::NIST_P256); ASSERT_THAT(ec_key_statusor, IsOk()); SubtleUtilBoringSSL::EcKey ec_key = *ec_key_statusor; Corrupt(&ec_key.pub_y); EXPECT_THAT(PemParser::WriteEcPublicKey(ec_key).status(), StatusIs(absl::StatusCode::kInternal)); } TEST(PemParserEcTest, WriteEcPrivateKeyWithBadPrivFails) { util::StatusOr ec_key_statusor = SubtleUtilBoringSSL::GetNewEcKey(subtle::NIST_P256); ASSERT_THAT(ec_key_statusor, IsOk()); SubtleUtilBoringSSL::EcKey ec_key = *ec_key_statusor; std::string priv = std::string(util::SecretDataAsStringView(ec_key.priv)); Corrupt(&priv); ec_key.priv = util::SecretDataFromStringView(priv); EXPECT_THAT(PemParser::WriteEcPrivateKey(ec_key).status(), StatusIs(absl::StatusCode::kInvalidArgument)); } } // namespace } // namespace subtle } // namespace tink } // namespace crypto