/* * (C) 2015 Jack Lloyd * (C) 2016 Daniel Neus, Rohde & Schwarz Cybersecurity * (C) 2017 René Korthaus, Rohde & Schwarz Cybersecurity * * Botan is released under the Simplified BSD License (see license.txt) */ #include "tests.h" #include #include #include #include #include #include #include #include #include #if defined(BOTAN_HAS_BASE64_CODEC) #include #endif namespace Botan_Tests { namespace { class Utility_Function_Tests : public Text_Based_Test { public: Utility_Function_Tests() : Text_Based_Test("util.vec", "In1,In2,Out") {} Test::Result run_one_test(const std::string& algo, const VarMap& vars) override { Test::Result result("Util " + algo); if(algo == "round_up") { const size_t x = get_req_sz(vars, "In1"); const size_t to = get_req_sz(vars, "In2"); result.test_eq(algo, Botan::round_up(x, to), get_req_sz(vars, "Out")); try { Botan::round_up(x, 0); result.test_failure("round_up did not reject invalid input"); } catch(std::exception) {} } else if(algo == "round_down") { const size_t x = get_req_sz(vars, "In1"); const size_t to = get_req_sz(vars, "In2"); result.test_eq(algo, Botan::round_down(x, to), get_req_sz(vars, "Out")); result.test_eq(algo, Botan::round_down(x, 0), x); } return result; } std::vector run_final_tests() override { std::vector results; results.push_back(test_loadstore()); results.push_back(test_ct_utils()); return results; } Test::Result test_ct_utils() { Test::Result result("CT utils"); result.test_eq_sz("CT::is_zero8", Botan::CT::is_zero(0), 0xFF); result.test_eq_sz("CT::is_zero8", Botan::CT::is_zero(1), 0x00); result.test_eq_sz("CT::is_zero8", Botan::CT::is_zero(0xFF), 0x00); result.test_eq_sz("CT::is_zero16", Botan::CT::is_zero(0), 0xFFFF); result.test_eq_sz("CT::is_zero16", Botan::CT::is_zero(1), 0x0000); result.test_eq_sz("CT::is_zero16", Botan::CT::is_zero(0xFF), 0x0000); result.test_eq_sz("CT::is_zero32", Botan::CT::is_zero(0), 0xFFFFFFFF); result.test_eq_sz("CT::is_zero32", Botan::CT::is_zero(1), 0x00000000); result.test_eq_sz("CT::is_zero32", Botan::CT::is_zero(0xFF), 0x00000000); result.test_eq_sz("CT::is_less8", Botan::CT::is_less(0, 1), 0xFF); result.test_eq_sz("CT::is_less8", Botan::CT::is_less(1, 0), 0x00); result.test_eq_sz("CT::is_less8", Botan::CT::is_less(0xFF, 5), 0x00); result.test_eq_sz("CT::is_less16", Botan::CT::is_less(0, 1), 0xFFFF); result.test_eq_sz("CT::is_less16", Botan::CT::is_less(1, 0), 0x0000); result.test_eq_sz("CT::is_less16", Botan::CT::is_less(0xFFFF, 5), 0x0000); result.test_eq_sz("CT::is_less32", Botan::CT::is_less(0, 1), 0xFFFFFFFF); result.test_eq_sz("CT::is_less32", Botan::CT::is_less(1, 0), 0x00000000); result.test_eq_sz("CT::is_less32", Botan::CT::is_less(0xFFFF5, 5), 0x00000000); result.test_eq_sz("CT::is_less32", Botan::CT::is_less(0xFFFFFFFF, 5), 0x00000000); result.test_eq_sz("CT::is_less32", Botan::CT::is_less(5, 0xFFFFFFFF), 0xFFFFFFFF); return result; } Test::Result test_loadstore() { Test::Result result("Util load/store"); const std::vector membuf = Botan::hex_decode("00112233445566778899AABBCCDDEEFF"); const uint8_t* mem = membuf.data(); const uint16_t in16 = 0x1234; const uint32_t in32 = 0xA0B0C0D0; const uint64_t in64 = 0xABCDEF0123456789; result.test_is_eq(Botan::get_byte(0, in32), 0xA0); result.test_is_eq(Botan::get_byte(1, in32), 0xB0); result.test_is_eq(Botan::get_byte(2, in32), 0xC0); result.test_is_eq(Botan::get_byte(3, in32), 0xD0); result.test_is_eq(Botan::make_uint16(0xAA, 0xBB), 0xAABB); result.test_is_eq(Botan::make_uint32(0x01, 0x02, 0x03, 0x04), 0x01020304); result.test_is_eq(Botan::load_be(mem, 0), 0x0011); result.test_is_eq(Botan::load_be(mem, 1), 0x2233); result.test_is_eq(Botan::load_be(mem, 2), 0x4455); result.test_is_eq(Botan::load_be(mem, 3), 0x6677); result.test_is_eq(Botan::load_le(mem, 0), 0x1100); result.test_is_eq(Botan::load_le(mem, 1), 0x3322); result.test_is_eq(Botan::load_le(mem, 2), 0x5544); result.test_is_eq(Botan::load_le(mem, 3), 0x7766); result.test_is_eq(Botan::load_be(mem, 0), 0x00112233); result.test_is_eq(Botan::load_be(mem, 1), 0x44556677); result.test_is_eq(Botan::load_be(mem, 2), 0x8899AABB); result.test_is_eq(Botan::load_be(mem, 3), 0xCCDDEEFF); result.test_is_eq(Botan::load_le(mem, 0), 0x33221100); result.test_is_eq(Botan::load_le(mem, 1), 0x77665544); result.test_is_eq(Botan::load_le(mem, 2), 0xBBAA9988); result.test_is_eq(Botan::load_le(mem, 3), 0xFFEEDDCC); result.test_is_eq(Botan::load_be(mem, 0), 0x0011223344556677); result.test_is_eq(Botan::load_be(mem, 1), 0x8899AABBCCDDEEFF); result.test_is_eq(Botan::load_le(mem, 0), 0x7766554433221100); result.test_is_eq(Botan::load_le(mem, 1), 0xFFEEDDCCBBAA9988); // Check misaligned loads: result.test_is_eq(Botan::load_be(mem + 1, 0), 0x1122); result.test_is_eq(Botan::load_le(mem + 3, 0), 0x4433); result.test_is_eq(Botan::load_be(mem + 1, 1), 0x55667788); result.test_is_eq(Botan::load_le(mem + 3, 1), 0xAA998877); result.test_is_eq(Botan::load_be(mem + 1, 0), 0x1122334455667788); result.test_is_eq(Botan::load_le(mem + 7, 0), 0xEEDDCCBBAA998877); result.test_is_eq(Botan::load_le(mem + 5, 0), 0xCCBBAA9988776655); uint8_t outbuf[16] = { 0 }; for(size_t offset = 0; offset != 7; ++offset) { uint8_t* out = outbuf + offset; Botan::store_be(in16, out); result.test_is_eq(out[0], 0x12); result.test_is_eq(out[1], 0x34); Botan::store_le(in16, out); result.test_is_eq(out[0], 0x34); result.test_is_eq(out[1], 0x12); Botan::store_be(in32, out); result.test_is_eq(out[0], 0xA0); result.test_is_eq(out[1], 0xB0); result.test_is_eq(out[2], 0xC0); result.test_is_eq(out[3], 0xD0); Botan::store_le(in32, out); result.test_is_eq(out[0], 0xD0); result.test_is_eq(out[1], 0xC0); result.test_is_eq(out[2], 0xB0); result.test_is_eq(out[3], 0xA0); Botan::store_be(in64, out); result.test_is_eq(out[0], 0xAB); result.test_is_eq(out[1], 0xCD); result.test_is_eq(out[2], 0xEF); result.test_is_eq(out[3], 0x01); result.test_is_eq(out[4], 0x23); result.test_is_eq(out[5], 0x45); result.test_is_eq(out[6], 0x67); result.test_is_eq(out[7], 0x89); Botan::store_le(in64, out); result.test_is_eq(out[0], 0x89); result.test_is_eq(out[1], 0x67); result.test_is_eq(out[2], 0x45); result.test_is_eq(out[3], 0x23); result.test_is_eq(out[4], 0x01); result.test_is_eq(out[5], 0xEF); result.test_is_eq(out[6], 0xCD); result.test_is_eq(out[7], 0xAB); } return result; } }; BOTAN_REGISTER_TEST("util", Utility_Function_Tests); class Poly_Double_Tests : public Text_Based_Test { public: Poly_Double_Tests() : Text_Based_Test("poly_dbl.vec", "In,Out") {} Test::Result run_one_test(const std::string&, const VarMap& vars) override { Test::Result result("Polynomial doubling"); const std::vector in = get_req_bin(vars, "In"); const std::vector out = get_req_bin(vars, "Out"); std::vector b = in; Botan::poly_double_n(b.data(), b.size()); result.test_eq("Expected value", b, out); return result; } }; BOTAN_REGISTER_TEST("poly_dbl", Poly_Double_Tests); class Date_Format_Tests : public Text_Based_Test { public: Date_Format_Tests() : Text_Based_Test("dates.vec", "Date") {} std::vector parse_date(const std::string& s) { const std::vector parts = Botan::split_on(s, ','); if(parts.size() != 6) { throw Test_Error("Bad date format '" + s + "'"); } std::vector u32s; for(auto const& sub : parts) { u32s.push_back(Botan::to_u32bit(sub)); } return u32s; } Test::Result run_one_test(const std::string& type, const VarMap& vars) override { Test::Result result("Date parsing"); const std::vector d = parse_date(get_req_str(vars, "Date")); if(type == "valid" || type == "valid.not_std" || type == "valid.64_bit_time_t") { Botan::calendar_point c(d[0], d[1], d[2], d[3], d[4], d[5]); result.test_is_eq("year", c.year, d[0]); result.test_is_eq("month", c.month, d[1]); result.test_is_eq("day", c.day, d[2]); result.test_is_eq("hour", c.hour, d[3]); result.test_is_eq("minute", c.minutes, d[4]); result.test_is_eq("second", c.seconds, d[5]); if(type == "valid.not_std" || (type == "valid.64_bit_time_t" && c.year > 2037 && sizeof(std::time_t) == 4)) { result.test_throws("valid but out of std::timepoint range", [c]() { c.to_std_timepoint(); }); } else { Botan::calendar_point c2 = Botan::calendar_value(c.to_std_timepoint()); result.test_is_eq("year", c2.year, d[0]); result.test_is_eq("month", c2.month, d[1]); result.test_is_eq("day", c2.day, d[2]); result.test_is_eq("hour", c2.hour, d[3]); result.test_is_eq("minute", c2.minutes, d[4]); result.test_is_eq("second", c2.seconds, d[5]); } } else if(type == "invalid") { result.test_throws("invalid date", [d]() { Botan::calendar_point c(d[0], d[1], d[2], d[3], d[4], d[5]); }); } else { throw Test_Error("Unexpected header '" + type + "' in date format tests"); } return result; } std::vector run_final_tests() override { Test::Result result("calendar_point::to_string"); Botan::calendar_point d(2008, 5, 15, 9, 30, 33); // desired format: --
T:: result.test_eq("calendar_point::to_string", d.to_string(), "2008-05-15T09:30:33"); return {result}; } }; BOTAN_REGISTER_TEST("util_dates", Date_Format_Tests); #if defined(BOTAN_HAS_BASE64_CODEC) class Base64_Tests : public Text_Based_Test { public: Base64_Tests() : Text_Based_Test("base64.vec", "Base64", "Binary") {} Test::Result run_one_test(const std::string& type, const VarMap& vars) override { Test::Result result("Base64"); const bool is_valid = (type == "valid"); const std::string base64 = get_req_str(vars, "Base64"); try { if(is_valid) { const std::vector binary = get_req_bin(vars, "Binary"); result.test_eq("base64 decoding", Botan::base64_decode(base64), binary); result.test_eq("base64 encoding", Botan::base64_encode(binary), base64); } else { auto res = Botan::base64_decode(base64); result.test_failure("decoded invalid base64 to " + Botan::hex_encode(res)); } } catch(std::exception& e) { if(is_valid) { result.test_failure("rejected valid base64", e.what()); } else { result.test_note("rejected invalid base64"); } } return result; } std::vector run_final_tests() override { Test::Result result("Base64"); const std::string valid_b64 = "Zg=="; for(char ws_char : { ' ', '\t', '\r', '\n' }) { for(size_t i = 0; i <= valid_b64.size(); ++i) { std::string b64_ws = valid_b64; b64_ws.insert(i, 1, ws_char); try { result.test_failure("decoded whitespace base64", Botan::base64_decode(b64_ws, false)); } catch(std::exception&) {} try { result.test_eq("base64 decoding with whitespace", Botan::base64_decode(b64_ws, true), "66"); } catch(std::exception& e) { result.test_failure(b64_ws, e.what()); } } } return {result}; } }; BOTAN_REGISTER_TEST("base64", Base64_Tests); #endif class Charset_Tests : public Text_Based_Test { public: Charset_Tests() : Text_Based_Test("charset.vec", "In,Out") {} Test::Result run_one_test(const std::string& type, const VarMap& vars) override { using namespace Botan; Test::Result result("Charset"); const std::vector in = get_req_bin(vars, "In"); const std::vector expected = get_req_bin(vars, "Out"); std::string converted; if(type == "UTF16-LATIN1") { converted = Charset::transcode(std::string(in.begin(), in.end()), Character_Set::LATIN1_CHARSET, Character_Set::UCS2_CHARSET); } else if(type == "UTF8-LATIN1") { converted = Charset::transcode(std::string(in.begin(), in.end()), Character_Set::LATIN1_CHARSET, Character_Set::UTF8_CHARSET); } else if(type == "LATIN1-UTF8") { converted = Charset::transcode(std::string(in.begin(), in.end()), Character_Set::UTF8_CHARSET, Character_Set::LATIN1_CHARSET); } else { throw Test_Error("Unexpected header '" + type + "' in charset tests"); } result.test_eq("string converted successfully", std::vector(converted.begin(), converted.end()), expected); return result; } Test::Result utf16_to_latin1_negative_tests() { using namespace Botan; Test::Result result("Charset negative tests"); result.test_throws("conversion fails for non-Latin1 characters", []() { // "abcdefŸabcdef" std::vector input = { 0x00, 0x61, 0x00, 0x62, 0x00, 0x63, 0x00, 0x64, 0x00, 0x65, 0x00, 0x66, 0x01, 0x78, 0x00, 0x61, 0x00, 0x62, 0x00, 0x63, 0x00, 0x64, 0x00, 0x65, 0x00, 0x66 }; Charset::transcode(std::string(input.begin(), input.end()), Character_Set::LATIN1_CHARSET, Character_Set::UCS2_CHARSET); }); result.test_throws("conversion fails for UTF16 string with odd number of bytes", []() { std::vector input = { 0x00, 0x61, 0x00 }; Charset::transcode(std::string(input.begin(), input.end()), Character_Set::LATIN1_CHARSET, Character_Set::UCS2_CHARSET); }); return result; } Test::Result utf8_to_latin1_negative_tests() { using namespace Botan; Test::Result result("Charset negative tests"); result.test_throws("conversion fails for non-Latin1 characters", []() { // "abcdefŸabcdef" std::vector input = { 0x61, 0x62, 0x63, 0x64, 0x65, 0x66, 0xC5, 0xB8, 0x61, 0x62, 0x63, 0x64, 0x65, 0x66 }; Charset::transcode(std::string(input.begin(), input.end()), Character_Set::LATIN1_CHARSET, Character_Set::UTF8_CHARSET); }); result.test_throws("invalid utf-8 string", []() { // sequence truncated std::vector input = { 0x61, 0x62, 0x63, 0x64, 0x65, 0x66, 0xC5 }; Charset::transcode(std::string(input.begin(), input.end()), Character_Set::LATIN1_CHARSET, Character_Set::UTF8_CHARSET); }); result.test_throws("invalid utf-8 string", []() { std::vector input = { 0x61, 0x62, 0x63, 0x64, 0x65, 0x66, 0xC8, 0xB8, 0x61 }; Charset::transcode(std::string(input.begin(), input.end()), Character_Set::LATIN1_CHARSET, Character_Set::UTF8_CHARSET); }); return result; } std::vector run_final_tests() override { using namespace Botan; Test::Result result("Charset negative tests"); result.merge(utf16_to_latin1_negative_tests()); result.merge(utf8_to_latin1_negative_tests()); return{ result }; } }; BOTAN_REGISTER_TEST("charset", Charset_Tests); class Hostname_Tests : public Text_Based_Test { public: Hostname_Tests() : Text_Based_Test("hostnames.vec", "Issued,Hostname") {} Test::Result run_one_test(const std::string& type, const VarMap& vars) override { using namespace Botan; Test::Result result("Hostname"); const std::string issued = get_req_str(vars, "Issued"); const std::string hostname = get_req_str(vars, "Hostname"); const bool expected = (type == "Invalid") ? false : true; const std::string what = hostname + ((expected == true) ? " matches " : " does not match ") + issued; result.test_eq(what, Botan::host_wildcard_match(issued, hostname), expected); return result; } }; BOTAN_REGISTER_TEST("hostname", Hostname_Tests); } }