/* * (C) 2016 Daniel Neus, Rohde & Schwarz Cybersecurity * * Botan is released under the Simplified BSD License (see license.txt) */ #include "tests.h" #include namespace Botan_Tests { namespace { Test::Result test_from_rng() { Test::Result result("OctetString"); Botan::OctetString os(Test::rng(), 32); result.test_eq("length is 32 bytes", os.size(), 32); return result; } Test::Result test_from_hex() { Test::Result result("OctetString"); Botan::OctetString os("0123456789ABCDEF"); result.test_eq("length is 8 bytes", os.size(), 8); return result; } Test::Result test_from_byte() { Test::Result result("OctetString"); auto rand_bytes = Test::rng().random_vec(8); Botan::OctetString os(rand_bytes.data(), rand_bytes.size()); result.test_eq("length is 8 bytes", os.size(), 8); return result; } Test::Result test_odd_parity() { Test::Result result("OctetString"); Botan::OctetString os("FFFFFFFFFFFFFFFF"); os.set_odd_parity(); Botan::OctetString expected("FEFEFEFEFEFEFEFE"); result.test_eq("odd parity set correctly", os, expected); Botan::OctetString os2("EFCBDA4FAA997F63"); os2.set_odd_parity(); Botan::OctetString expected2("EFCBDA4FAB987F62"); result.test_eq("odd parity set correctly", os2, expected2); return result; } Test::Result test_as_string() { Test::Result result("OctetString"); Botan::OctetString os("0123456789ABCDEF"); result.test_eq("OctetString::as_string() returns correct string", os.as_string(), "0123456789ABCDEF"); return result; } Test::Result test_xor() { Test::Result result("OctetString"); Botan::OctetString os1("0000000000000000"); Botan::OctetString os2("FFFFFFFFFFFFFFFF"); Botan::OctetString xor_result = os1 ^ os2; result.test_eq("OctetString XOR operations works as expected", xor_result, os2); xor_result = os1; xor_result ^= os2; result.test_eq("OctetString XOR operations works as expected", xor_result, os2); xor_result = os2 ^ os2; result.test_eq("OctetString XOR operations works as expected", xor_result, os1); Botan::OctetString os3("0123456789ABCDEF"); xor_result = os3 ^ os2; Botan::OctetString expected("FEDCBA9876543210"); result.test_eq("OctetString XOR operations works as expected", xor_result, expected); return result; } Test::Result test_equality() { Test::Result result("OctetString"); Botan::OctetString os1("0000000000000000"); Botan::OctetString os2("FFFFFFFFFFFFFFFF"); result.confirm("OctetString equality operations works as expected", os1 == os1); result.confirm("OctetString equality operations works as expected", os2 == os2); result.confirm("OctetString equality operations works as expected", os1 != os2); return result; } Test::Result test_append() { Test::Result result("OctetString"); Botan::OctetString os1("0000"); Botan::OctetString os2("FFFF"); Botan::OctetString expected("0000FFFF"); Botan::OctetString append_result = os1 + os2; result.test_eq("OctetString append operations works as expected", append_result, expected); return result; } class OctetString_Tests final : public Test { public: std::vector run() override { std::vector results; std::vector> fns = { test_from_rng, test_from_hex, test_from_byte, test_odd_parity, test_as_string, test_xor, test_equality, test_append }; for(size_t i = 0; i != fns.size(); ++i) { try { results.push_back(fns[ i ]()); } catch(std::exception& e) { results.push_back(Test::Result::Failure("OctetString tests " + std::to_string(i), e.what())); } } return results; } }; BOTAN_REGISTER_TEST("octetstring", OctetString_Tests); } }