/**************************************************************************** ** ** Copyright (C) 2021 Intel Corporation ** ** Permission is hereby granted, free of charge, to any person obtaining a copy ** of this software and associated documentation files (the "Software"), to deal ** in the Software without restriction, including without limitation the rights ** to use, copy, modify, merge, publish, distribute, sublicense, and/or sell ** copies of the Software, and to permit persons to whom the Software is ** furnished to do so, subject to the following conditions: ** ** The above copyright notice and this permission notice shall be included in ** all copies or substantial portions of the Software. ** ** THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR ** IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, ** FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE ** AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER ** LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, ** OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN ** THE SOFTWARE. ** ****************************************************************************/ #define _XOPEN_SOURCE 700 #define _DARWIN_C_SOURCE 1 /* need MAP_ANON */ #include #include "cbor.h" #include #include #if defined(Q_OS_UNIX) # include # include #elif defined(Q_OS_WIN) # define WIN32_LEAN_AND_MEAN 1 # define NOMINMAX 1 # include #endif namespace QTest { template<> char *toString(const CborError &err) { return qstrdup(cbor_error_string(err)); } } class tst_Parser : public QObject { Q_OBJECT private slots: void initParserEmpty(); // parsing API void integers_data(); void integers(); void halfFloat_data(); void halfFloat(); void fixed_data(); void fixed(); void strings_data(); void strings() { fixed(); } void tags_data(); void tags() { fixed(); } void tagTags_data() { tags_data(); } void tagTags(); void emptyContainers_data(); void emptyContainers(); void arrays_data(); void arrays(); void undefLengthArrays_data() { arrays_data(); } void undefLengthArrays(); void nestedArrays_data() { arrays_data(); } void nestedArrays(); void maps_data(); void maps(); void undefLengthMaps_data() { maps_data(); } void undefLengthMaps(); void nestedMaps_data() { maps_data(); } void nestedMaps(); void mapMixed_data(); void mapMixed() { arrays(); } void mapsAndArrays_data() { arrays_data(); } void mapsAndArrays(); void readerApi_data() { arrays_data(); } void readerApi(); void reparse_data(); void reparse(); // chunked string API void chunkedString_data(); void chunkedString(); void chunkedStringInUndefArray_data() { chunkedString_data(); } void chunkedStringInUndefArray(); // convenience API void stringLength_data(); void stringLength(); void stringCompare_data(); void stringCompare(); void mapFind_data(); void mapFind(); // validation & errors void checkedIntegers_data(); void checkedIntegers(); void validation_data(); void validation(); void strictValidation_data(); void strictValidation(); void incompleteData_data(); void incompleteData(); void endPointer_data(); void endPointer(); void recursionLimit_data(); void recursionLimit(); }; struct ParserWrapper { void *realdata = nullptr; uint8_t *data; size_t len; CborParser parser; CborValue first; ~ParserWrapper() { freeMemory(); } CborError init(const QByteArray &ba, uint32_t flags = 0) { return init(ba.constData(), ba.size(), flags); } CborError init(const char *ptr, int n, uint32_t flags = 0) { freeMemory(); data = allocateMemory(n); memcpy(data, ptr, len); return cbor_parser_init(data, len, flags, &parser, &first); } uint8_t *begin() { return data; } uint8_t *end() { return data + len; } uint8_t *allocateMemory(size_t); void freeMemory(); static const size_t PageSize = 4096; static inline size_t mmapAllocation(size_t n) { // round up and add one page return (n + 2*PageSize) & ~(PageSize - 1); } static bool shouldUseMmap(); }; bool ParserWrapper::shouldUseMmap() { static int v = qEnvironmentVariableIntValue("PARSER_NO_MMAP"); return !v; } uint8_t *ParserWrapper::allocateMemory(size_t n) { len = n; if (shouldUseMmap()) { size_t alloc = mmapAllocation(n); #if defined(Q_OS_UNIX) realdata = mmap(nullptr, alloc, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANON, -1, 0); Q_ASSERT_X(realdata != MAP_FAILED, "allocateMemory", "mmap failed!"); // mark last page inaccessible uint8_t *ptr = static_cast(realdata); ptr += alloc - PageSize; mprotect(ptr, PageSize, PROT_NONE); ptr -= n; return ptr; #elif defined(Q_OS_WIN) DWORD flAllocationType = MEM_COMMIT | MEM_RESERVE; DWORD flProtect = PAGE_READWRITE; realdata = VirtualAlloc(nullptr, alloc, flAllocationType, flProtect); Q_ASSERT_X(realdata, "allocateMemory", "VirtualAlloc failed!"); // mark last page inaccessible uint8_t *ptr = static_cast(realdata); ptr += alloc - PageSize; VirtualProtect(ptr, PageSize, PAGE_NOACCESS, nullptr); ptr -= n; return ptr; #endif } realdata = malloc(n); return static_cast(realdata); } void ParserWrapper::freeMemory() { if (shouldUseMmap()) { if (realdata) { #if defined(Q_OS_UNIX) size_t alloc = mmapAllocation(len); munmap(realdata, alloc); #elif defined(Q_OS_WIN) VirtualFree(realdata, 0, MEM_RELEASE); #endif } return; } free(realdata); } static CborError qstring_printf(void *out, const char *fmt, ...) { auto str = static_cast(out); va_list va; va_start(va, fmt); *str += QString::vasprintf(fmt, va); va_end(va); return CborNoError; }; CborError parseOne(CborValue *it, QString *parsed) { int flags = CborPrettyShowStringFragments | CborPrettyIndicateIndeterminateLength | CborPrettyIndicateOverlongNumbers; parsed->clear(); return cbor_value_to_pretty_stream(qstring_printf, parsed, it, flags); } CborError parseOneChunk(CborValue *it, QString *parsed) { CborError err; CborType ourType = cbor_value_get_type(it); if (ourType == CborByteStringType) { const uint8_t *bytes; size_t len; err = cbor_value_get_byte_string_chunk(it, &bytes, &len, it); if (err) return err; if (bytes) *parsed = QString::fromLatin1("h'" + QByteArray::fromRawData(reinterpret_cast(bytes), len).toHex() + '\''); } else if (ourType == CborTextStringType) { const char *text; size_t len; err = cbor_value_get_text_string_chunk(it, &text, &len, it); if (err) return err; if (text) *parsed = '"' + QString::fromUtf8(text, len) + '"'; } else { Q_ASSERT(false); } return err; } void tst_Parser::initParserEmpty() { CborParser parser; CborValue first; CborError err = cbor_parser_init((const quint8 *)"", 0, 0, &parser, &first); QCOMPARE(err, CborErrorUnexpectedEOF); } bool compareFailed = true; void compareOne_real(const QByteArray &data, const QString &expected, int line, int n = -1) { compareFailed = true; ParserWrapper w; CborError err = w.init(data); QVERIFY2(!err, QByteArray::number(line) + ": Got error \"" + cbor_error_string(err) + "\""); if (cbor_value_get_type(&w.first) == CborArrayType) { size_t len; if (n >= 0) { QVERIFY(cbor_value_is_length_known(&w.first)); QCOMPARE(cbor_value_get_array_length(&w.first, &len), CborNoError); QCOMPARE(len, size_t(len)); } else { QVERIFY(!cbor_value_is_length_known(&w.first)); QCOMPARE(cbor_value_get_array_length(&w.first, &len), CborErrorUnknownLength); } } else if (cbor_value_get_type(&w.first) == CborMapType) { size_t len; if (n >= 0) { QVERIFY(cbor_value_is_length_known(&w.first)); QCOMPARE(cbor_value_get_map_length(&w.first, &len), CborNoError); QCOMPARE(len, size_t(len)); } else { QVERIFY(!cbor_value_is_length_known(&w.first)); QCOMPARE(cbor_value_get_map_length(&w.first, &len), CborErrorUnknownLength); } } else if (cbor_value_is_text_string(&w.first) || cbor_value_is_byte_string(&w.first)) { size_t len; QCOMPARE(cbor_value_calculate_string_length(&w.first, &len), CborNoError); if (cbor_value_is_length_known(&w.first)) { size_t len2; QCOMPARE(cbor_value_get_string_length(&w.first, &len2), CborNoError); QCOMPARE(len2, len); } else { QCOMPARE(cbor_value_get_string_length(&w.first, &len), CborErrorUnknownLength); } } CborError err2 = cbor_value_validate_basic(&w.first); QString decoded; err = parseOne(&w.first, &decoded); QVERIFY2(!err, QByteArray::number(line) + ": Got error \"" + cbor_error_string(err) + "\"; decoded stream:\n" + decoded.toLatin1()); QCOMPARE(decoded, expected); // check that the errors are the same QCOMPARE(err2, err); // check that we consumed everything QCOMPARE((void*)cbor_value_get_next_byte(&w.first), (void*)w.end()); compareFailed = false; } #define compareOne(data, expected) compareOne_real(data, expected, __LINE__) #define compareOneSize(n, data, expected) compareOne_real(data, expected, __LINE__, n) #include "data.cpp" void tst_Parser::integers_data() { addIntegers(); } void tst_Parser::integers() { QFETCH(QByteArray, data); QFETCH(bool, isNegative); QFETCH(quint64, expectedRaw); QFETCH(qint64, expectedValue); QFETCH(bool, inInt64Range); ParserWrapper w; CborError err = w.init(data); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); QVERIFY(cbor_value_is_integer(&w.first)); uint64_t raw; cbor_value_get_raw_integer(&w.first, &raw); QCOMPARE(quint64(raw), expectedRaw); if (isNegative) { QVERIFY(cbor_value_is_negative_integer(&w.first)); QVERIFY(!cbor_value_is_unsigned_integer(&w.first)); } else { QVERIFY(!cbor_value_is_negative_integer(&w.first)); QVERIFY(cbor_value_is_unsigned_integer(&w.first)); } int64_t value; if (inInt64Range) { cbor_value_get_int64(&w.first, &value); QCOMPARE(qint64(value), expectedValue); } err = cbor_value_get_int64_checked(&w.first, &value); QCOMPARE(err, inInt64Range ? CborNoError : CborErrorDataTooLarge); int ivalue; bool inIntRange = inInt64Range && (expectedValue == int(expectedValue)); err = cbor_value_get_int_checked(&w.first, &ivalue); QCOMPARE(err, inIntRange ? CborNoError : CborErrorDataTooLarge); } static void addHalfFloat() { QTest::addColumn("data"); QTest::addColumn("expectedRaw"); QTest::addColumn("expectedValue"); QTest::newRow("+0") << raw("\x00\x00") << 0U << 0.0; QTest::newRow("-0") << raw("\x80\x00") << 0x8000U << 0.0; QTest::newRow("min.denorm") << raw("\x00\x01") << 1U << ldexp(1.0, -14) * ldexp(1.0, -10); QTest::newRow("-min.denorm") << raw("\x80\x01") << 0x8001U << ldexp(-1.0, -14) * ldexp(1.0, -10); QTest::newRow("max.denorm") << raw("\x03\xff") << 0x03ffU << ldexp(1.0, -14) * (1.0 - ldexp(1.0, -10)); QTest::newRow("-max.denorm") << raw("\x83\xff") << 0x83ffU << ldexp(-1.0, -14) * (1.0 - ldexp(1.0, -10)); QTest::newRow("min.norm") << raw("\x04\x00") << 0x0400U << ldexp(1.0, -14); QTest::newRow("-min.norm") << raw("\x84\x00") << 0x8400U << ldexp(-1.0, -14); QTest::newRow("1.0") << raw("\x3c\x00") << 0x3c00U << 1.0; QTest::newRow("-1.0") << raw("\xbc\x00") << 0xbc00U << -1.0; QTest::newRow("1.5") << raw("\x3e\x00") << 0x3e00U << 1.5; QTest::newRow("-1.5") << raw("\xbe\x00") << 0xbe00U << -1.5; QTest::newRow("max") << raw("\x7b\xff") << 0x7bffU << ldexp(1.0, 15) * (2.0 - ldexp(1.0, -10)); QTest::newRow("-max") << raw("\xfb\xff") << 0xfbffU << ldexp(-1.0, 15) * (2.0 - ldexp(1.0, -10)); QTest::newRow("inf") << raw("\x7c\x00") << 0x7c00U << double(INFINITY); QTest::newRow("-inf") << raw("\xfc\x00") << 0xfc00U << double(-INFINITY); QTest::newRow("nan") << raw("\x7c\x01") << 0x7c01U << double(NAN); QTest::newRow("nan2") << raw("\xfc\x01") << 0xfc01U << double(NAN); QTest::newRow("nan3") << raw("\x7e\x00") << 0x7e00U << double(NAN); QTest::newRow("nan4") << raw("\xfe\x00") << 0xfe00U << double(NAN); } void tst_Parser::halfFloat_data() { addHalfFloat(); } void tst_Parser::halfFloat() { QFETCH(QByteArray, data); QFETCH(unsigned, expectedRaw); QFETCH(double, expectedValue); CborParser parser; CborValue first; data.prepend('\xf9'); CborError err = cbor_parser_init(reinterpret_cast(data.constData()), data.length(), 0, &parser, &first); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); QVERIFY(cbor_value_is_half_float(&first)); uint16_t raw; cbor_value_get_half_float(&first, &raw); QCOMPARE(raw, uint16_t(expectedRaw)); float value; cbor_value_get_half_float_as_float(&first, &value); const double epsilon = ldexp(1.0, -25); if (qIsNaN(expectedValue)) { QVERIFY(qIsNaN(value)); } else if (qIsInf(expectedValue)) { QVERIFY(value == (float)expectedValue); } else { QVERIFY(qAbs(value - (float)expectedValue) < epsilon); } } void tst_Parser::fixed_data() { addColumns(); addFixedData(); } void tst_Parser::fixed() { QFETCH(QByteArray, data); QFETCH(QString, expected); compareOne(data, expected); } void tst_Parser::strings_data() { addColumns(); addStringsData(); } void tst_Parser::tags_data() { addColumns(); addTagsData(); } void tst_Parser::tagTags() { QFETCH(QByteArray, data); QFETCH(QString, expected); compareOne("\xd9\xd9\xf7" + data, "55799(" + expected + ')'); if (!compareFailed) compareOne("\xd9\xd9\xf7" "\xd9\xd9\xf7" + data, "55799(55799(" + expected + "))"); } void tst_Parser::emptyContainers_data() { addColumns(); addEmptyContainersData(); } void tst_Parser::emptyContainers() { QFETCH(QByteArray, data); QFETCH(QString, expected); QFETCH(int, n); compareOneSize(n, data, expected); } void tst_Parser::arrays_data() { addColumns(); addFixedData(); addStringsData(); addTagsData(); } void tst_Parser::arrays() { QFETCH(QByteArray, data); QFETCH(QString, expected); compareOneSize(1, "\x81" + data, '[' + expected + ']'); if (compareFailed) return; compareOneSize(2, "\x82" + data + data, '[' + expected + ", " + expected + ']'); if (compareFailed) return; // overlong length compareOneSize(1, "\x98\1" + data, "[_0 " + expected + ']'); if (compareFailed) return; compareOneSize(1, raw("\x99\0\1") + data, "[_1 " + expected + ']'); if (compareFailed) return; compareOneSize(1, raw("\x9a\0\0\0\1") + data, "[_2 " + expected + ']'); if (compareFailed) return; compareOneSize(1, raw("\x9b\0\0\0\0\0\0\0\1") + data, "[_3 " + expected + ']'); if (compareFailed) return; // medium-sized array: 32 elements (1 << 5) expected += ", "; for (int i = 0; i < 5; ++i) { data += data; expected += expected; } expected.chop(2); // remove the last ", " compareOneSize(32, "\x98\x20" + data, '[' + expected + ']'); if (compareFailed) return; // large array: 256 elements (32 << 3) expected += ", "; for (int i = 0; i < 3; ++i) { data += data; expected += expected; } expected.chop(2); // remove the last ", " compareOneSize(256, raw("\x99\1\0") + data, '[' + expected + ']'); if (compareFailed) return; } void tst_Parser::undefLengthArrays() { QFETCH(QByteArray, data); QFETCH(QString, expected); compareOne("\x9f" + data + "\xff", "[_ " + expected + ']'); if (compareFailed) return; compareOne("\x9f" + data + data + "\xff", "[_ " + expected + ", " + expected + ']'); } void tst_Parser::nestedArrays() { QFETCH(QByteArray, data); QFETCH(QString, expected); compareOneSize(1, "\x81\x81" + data, "[[" + expected + "]]"); if (compareFailed) return; compareOneSize(1, "\x81\x81\x81" + data, "[[[" + expected + "]]]"); if (compareFailed) return; compareOneSize(1, "\x81\x82" + data + data, "[[" + expected + ", " + expected + "]]"); if (compareFailed) return; compareOneSize(2, "\x82\x81" + data + data, "[[" + expected + "], " + expected + "]"); if (compareFailed) return; compareOneSize(2, "\x82\x81" + data + '\x81' + data, "[[" + expected + "], [" + expected + "]]"); if (compareFailed) return; // undefined length compareOneSize(-1, "\x9f\x9f" + data + data + "\xff\xff", "[_ [_ " + expected + ", " + expected + "]]"); if (compareFailed) return; compareOneSize(-1, "\x9f\x9f" + data + "\xff\x9f" + data + "\xff\xff", "[_ [_ " + expected + "], [_ " + expected + "]]"); if (compareFailed) return; compareOneSize(-1, "\x9f\x9f" + data + data + "\xff\x9f" + data + "\xff\xff", "[_ [_ " + expected + ", " + expected + "], [_ " + expected + "]]"); if (compareFailed) return; // mix them compareOneSize(1, "\x81\x9f" + data + "\xff", "[[_ " + expected + "]]"); if (compareFailed) return; compareOneSize(-1, "\x9f\x81" + data + "\xff", "[_ [" + expected + "]]"); } void tst_Parser::maps_data() { arrays_data(); } void tst_Parser::maps() { QFETCH(QByteArray, data); QFETCH(QString, expected); // integer key compareOneSize(1, "\xa1\1" + data, "{1: " + expected + '}'); if (compareFailed) return; // string key compareOneSize(1, "\xa1\x65" "Hello" + data, "{\"Hello\": " + expected + '}'); if (compareFailed) return; // map to self compareOneSize(1, "\xa1" + data + data, '{' + expected + ": " + expected + '}'); if (compareFailed) return; // two integer keys compareOneSize(2, "\xa2\1" + data + "\2" + data, "{1: " + expected + ", 2: " + expected + '}'); if (compareFailed) return; // OneSize integer and OneSize string key compareOneSize(2, "\xa2\1" + data + "\x65" "Hello" + data, "{1: " + expected + ", \"Hello\": " + expected + '}'); if (compareFailed) return; } void tst_Parser::undefLengthMaps() { QFETCH(QByteArray, data); QFETCH(QString, expected); // integer key compareOne("\xbf\1" + data + '\xff', "{_ 1: " + expected + '}'); if (compareFailed) return; compareOne("\xbf\1" + data + '\2' + data + '\xff', "{_ 1: " + expected + ", 2: " + expected + '}'); if (compareFailed) return; compareOne("\xbf\1" + data + "\x65Hello" + data + '\xff', "{_ 1: " + expected + ", \"Hello\": " + expected + '}'); if (compareFailed) return; compareOne("\xbf\x65Hello" + data + '\1' + data + '\xff', "{_ \"Hello\": " + expected + ", 1: " + expected + '}'); } void tst_Parser::nestedMaps() { QFETCH(QByteArray, data); QFETCH(QString, expected); // nested maps as values compareOneSize(1, "\xa1\1\xa1\2" + data, "{1: {2: " + expected + "}}"); if (compareFailed) return; compareOneSize(1, "\xa1\x65Hello\xa1\2" + data, "{\"Hello\": {2: " + expected + "}}"); if (compareFailed) return; compareOneSize(1, "\xa1\1\xa2\2" + data + '\x20' + data, "{1: {2: " + expected + ", -1: " + expected + "}}"); if (compareFailed) return; compareOneSize(2, "\xa2\1\xa1\2" + data + "\2\xa1\x20" + data, "{1: {2: " + expected + "}, 2: {-1: " + expected + "}}"); if (compareFailed) return; // nested maps as keys compareOneSize(1, "\xa1\xa1\xf4" + data + "\xf5", "{{false: " + expected + "}: true}"); if (compareFailed) return; compareOneSize(1, "\xa1\xa1" + data + data + "\xa1" + data + data, "{{" + expected + ": " + expected + "}: {" + expected + ": " + expected + "}}"); if (compareFailed) return; // undefined length compareOneSize(-1, "\xbf\1\xbf\2" + data + "\xff\xff", "{_ 1: {_ 2: " + expected + "}}"); if (compareFailed) return; compareOneSize(-1, "\xbf\1\xbf\2" + data + '\x20' + data + "\xff\xff", "{_ 1: {_ 2: " + expected + ", -1: " + expected + "}}"); if (compareFailed) return; compareOneSize(-1, "\xbf\1\xbf\2" + data + "\xff\2\xbf\x20" + data + "\xff\xff", "{_ 1: {_ 2: " + expected + "}, 2: {_ -1: " + expected + "}}"); if (compareFailed) return; compareOneSize(-1, "\xbf\xbf" + data + data + "\xff\xbf" + data + data + "\xff\xff", "{_ {_ " + expected + ": " + expected + "}: {_ " + expected + ": " + expected + "}}"); if (compareFailed) return; // mix them compareOneSize(1, "\xa1\1\xbf\2" + data + "\xff", "{1: {_ 2: " + expected + "}}"); if (compareFailed) return; compareOneSize(-1, "\xbf\1\xa1\2" + data + "\xff", "{_ 1: {2: " + expected + "}}"); if (compareFailed) return; } void tst_Parser::mapMixed_data() { addColumns(); addMapMixedData(); } void tst_Parser::mapsAndArrays() { QFETCH(QByteArray, data); QFETCH(QString, expected); // arrays of maps compareOneSize(1, "\x81\xa1\1" + data, "[{1: " + expected + "}]"); if (compareFailed) return; compareOneSize(2, "\x82\xa1\1" + data + "\xa1\2" + data, "[{1: " + expected + "}, {2: " + expected + "}]"); if (compareFailed) return; compareOneSize(1, "\x81\xa2\1" + data + "\2" + data, "[{1: " + expected + ", 2: " + expected + "}]"); if (compareFailed) return; compareOneSize(-1, "\x9f\xa1\1" + data + "\xff", "[_ {1: " + expected + "}]"); if (compareFailed) return; compareOneSize(1, "\x81\xbf\1" + data + "\xff", "[{_ 1: " + expected + "}]"); if (compareFailed) return; compareOneSize(-1, "\x9f\xbf\1" + data + "\xff\xff", "[_ {_ 1: " + expected + "}]"); if (compareFailed) return; // maps of arrays compareOneSize(1, "\xa1\1\x81" + data, "{1: [" + expected + "]}"); if (compareFailed) return; compareOneSize(1, "\xa1\1\x82" + data + data, "{1: [" + expected + ", " + expected + "]}"); if (compareFailed) return; compareOneSize(2, "\xa2\1\x81" + data + "\x65Hello\x81" + data, "{1: [" + expected + "], \"Hello\": [" + expected + "]}"); if (compareFailed) return; compareOneSize(1, "\xa1\1\x9f" + data + "\xff", "{1: [_ " + expected + "]}"); if (compareFailed) return; compareOneSize(1, "\xa1\1\x9f" + data + data + "\xff", "{1: [_ " + expected + ", " + expected + "]}"); if (compareFailed) return; compareOneSize(-1, "\xbf\1\x81" + data + "\xff", "{_ 1: [" + expected + "]}"); if (compareFailed) return; compareOneSize(-1, "\xbf\1\x9f" + data + "\xff\xff", "{_ 1: [_ " + expected + "]}"); if (compareFailed) return; compareOneSize(-1, "\xbf\1\x9f" + data + data + "\xff\xff", "{_ 1: [_ " + expected + ", " + expected + "]}"); if (compareFailed) return; // mixed with indeterminate length strings compareOneSize(-1, "\xbf\1\x9f" + data + "\xff\x65Hello\xbf" + data + "\x7f\xff\xff\xff", "{_ 1: [_ " + expected + "], \"Hello\": {_ " + expected + ": (_ )}}"); } struct Input { QByteArray data; int consumed; }; static const CborParserOperations byteArrayOps = { /* can_read_bytes = */ [](void *token, size_t len) { auto input = static_cast(token); return input->data.size() - input->consumed >= int(len); }, /* read_bytes = */ [](void *token, void *dst, size_t offset, size_t len) { auto input = static_cast(token); return memcpy(dst, input->data.constData() + input->consumed + offset, len); }, /* advance_bytes = */ [](void *token, size_t len) { auto input = static_cast(token); input->consumed += int(len); }, /* transfer_string = */ [](void *token, const void **userptr, size_t offset, size_t len) { // ### auto input = static_cast(token); if (input->data.size() - input->consumed < int(len + offset)) return CborErrorUnexpectedEOF; input->consumed += int(offset); *userptr = input->data.constData() + input->consumed; input->consumed += int(len); return CborNoError; } }; void tst_Parser::readerApi() { QFETCH(QByteArray, data); QFETCH(QString, expected); Input input = { data, 0 }; CborParser parser; CborValue first; CborError err = cbor_parser_init_reader(&byteArrayOps, &parser, &first, &input); QCOMPARE(err, CborNoError); QString decoded; err = parseOne(&first, &decoded); QCOMPARE(err, CborNoError); QCOMPARE(decoded, expected); // check we consumed everything QCOMPARE(input.consumed, data.size()); } void tst_Parser::reparse_data() { // only one-item rows addColumns(); addFixedData(); } void tst_Parser::reparse() { QFETCH(QByteArray, data); QFETCH(QString, expected); Input input = { QByteArray(), 0 }; CborParser parser; CborValue first; CborError err = cbor_parser_init_reader(&byteArrayOps, &parser, &first, &input); QCOMPARE(err, CborErrorUnexpectedEOF); for (int i = 0; i < data.size(); ++i) { input.data = data.left(i); err = cbor_value_reparse(&first); if (err != CborErrorUnexpectedEOF) qDebug() << "At" << i; QCOMPARE(err, CborErrorUnexpectedEOF); QCOMPARE(input.consumed, 0); } // now it should work input.data = data; err = cbor_value_reparse(&first); QCOMPARE(err, CborNoError); QString decoded; err = parseOne(&first, &decoded); QCOMPARE(err, CborNoError); QCOMPARE(decoded, expected); // check we consumed everything QCOMPARE(input.consumed, data.size()); } void tst_Parser::chunkedString_data() { addChunkedStringData(); } static void chunkedStringTest(const QByteArray &data, const QString &concatenated, QStringList &chunks, CborType ourType) { ParserWrapper w; CborError err = w.init(data); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); CborValue value; QVERIFY(cbor_value_is_array(&w.first)); err = cbor_value_enter_container(&w.first, &value); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); QVERIFY(cbor_value_is_byte_string(&value) || cbor_value_is_text_string(&value)); CborValue copy = value; err = cbor_value_begin_string_iteration(&value); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); forever { QString decoded; err = parseOneChunk(&value, &decoded); if (err == CborErrorNoMoreStringChunks) break; // last chunk QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); QVERIFY2(!chunks.isEmpty(), "Too many chunks"); QString expected = chunks.takeFirst(); QCOMPARE(decoded, expected); } err = cbor_value_finish_string_iteration(&value); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); QVERIFY2(chunks.isEmpty(), "Too few chunks"); // compare to the concatenated data { size_t n; err = cbor_value_calculate_string_length(©, &n); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); size_t nn = n; QByteArray buffer(n + 1, Qt::Uninitialized); QByteArray buffer2(n + 1, Qt::Uninitialized); buffer[int(n)] = 0xff; buffer2[int(n)] = 0xff; QString formatted; if (cbor_value_is_byte_string(©)) { err = cbor_value_copy_byte_string(©, (uint8_t *)buffer.data(), &nn, nullptr); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); QCOMPARE(nn, n); formatted = QString::fromLatin1("h'" + QByteArray::fromRawData(buffer.data(), n).toHex() + '\''); // repeat by allowing the null termination nn = n + 1; err = cbor_value_copy_byte_string(©, (uint8_t *)buffer2.data(), &nn, nullptr); } else { err = cbor_value_copy_text_string(©, buffer.data(), &n, nullptr); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); QCOMPARE(nn, n); formatted = '"' + QString::fromUtf8(buffer.data(), n) + '"'; // repeat by allowing the null termination nn = n + 1; err = cbor_value_copy_text_string(©, buffer2.data(), &nn, nullptr); } QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); QCOMPARE(formatted, concatenated); // verify terminators QCOMPARE(buffer.at(n), char(0xff)); QCOMPARE(buffer2.at(n), '\0'); QCOMPARE(nn, n); buffer.truncate(n); buffer2.truncate(n); QCOMPARE(buffer2, buffer); } // confirm that the extra string we appended is still here QVERIFY(!cbor_value_at_end(&value)); QCOMPARE(cbor_value_get_type(&value), ourType); size_t len; err = cbor_value_get_string_length(&value, &len); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); QCOMPARE(len, size_t(0)); err = cbor_value_advance(&value); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); // confirm EOF QVERIFY(cbor_value_at_end(&value)); err = cbor_value_leave_container(&w.first, &value); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); QCOMPARE((void*)cbor_value_get_next_byte(&w.first), (void*)w.end()); } void tst_Parser::chunkedString() { QFETCH(QByteArray, data); QFETCH(QString, concatenated); QFETCH(QStringList, chunks); // Make this an array of two entries, with the second an empty byte or text string CborType ourType = CborType(data.at(0) & 0xe0); data.prepend(char(0x82)); data.append(ourType); chunkedStringTest(data, concatenated, chunks, ourType); } void tst_Parser::chunkedStringInUndefArray() { QFETCH(QByteArray, data); QFETCH(QString, concatenated); QFETCH(QStringList, chunks); // Make this an array of undefined length entries, with the second entry an empty byte or text string CborType ourType = CborType(data.at(0) & 0xe0); data.prepend(char(0x9f)); data.append(ourType); data.append(char(0xff)); chunkedStringTest(data, concatenated, chunks, ourType); } void tst_Parser::stringLength_data() { QTest::addColumn("data"); QTest::addColumn("expected"); QTest::newRow("emptybytestring") << raw("\x40") << 0; QTest::newRow("bytestring1") << raw("\x41 ") << 1; QTest::newRow("bytestring1-nul") << raw("\x41\0") << 1; QTest::newRow("bytestring5") << raw("\x45Hello") << 5; QTest::newRow("bytestring24") << raw("\x58\x18""123456789012345678901234") << 24; QTest::newRow("bytestring256") << raw("\x59\1\0") + QByteArray(256, '3') << 256; // text strings QTest::newRow("emptytextstring") << raw("\x60") << 0; QTest::newRow("textstring1") << raw("\x61 ") << 1; QTest::newRow("textstring1-nul") << raw("\x61\0") << 1; QTest::newRow("textstring5") << raw("\x65Hello") << 5; QTest::newRow("textstring24") << raw("\x78\x18""123456789012345678901234") << 24; QTest::newRow("textstring256") << raw("\x79\1\0") + QByteArray(256, '3') << 256; // strings with overlong length QTest::newRow("emptybytestring*1") << raw("\x58\x00") << 0; QTest::newRow("emptytextstring*1") << raw("\x78\x00") << 0; QTest::newRow("emptybytestring*2") << raw("\x59\x00\x00") << 0; QTest::newRow("emptytextstring*2") << raw("\x79\x00\x00") << 0; QTest::newRow("emptybytestring*4") << raw("\x5a\0\0\0\0") << 0; QTest::newRow("emptytextstring*4") << raw("\x7a\0\0\0\0") << 0; QTest::newRow("emptybytestring*8") << raw("\x5b\0\0\0\0\0\0\0\0") << 0; QTest::newRow("emptytextstring*8") << raw("\x7b\0\0\0\0\0\0\0\0") << 0; QTest::newRow("bytestring5*1") << raw("\x58\x05Hello") << 5; QTest::newRow("textstring5*1") << raw("\x78\x05Hello") << 5; QTest::newRow("bytestring5*2") << raw("\x59\0\5Hello") << 5; QTest::newRow("textstring5*2") << raw("\x79\0\x05Hello") << 5; QTest::newRow("bytestring5*4") << raw("\x5a\0\0\0\5Hello") << 5; QTest::newRow("textstring5*4") << raw("\x7a\0\0\0\x05Hello") << 5; QTest::newRow("bytestring5*8") << raw("\x5b\0\0\0\0\0\0\0\5Hello") << 5; QTest::newRow("textstring5*8") << raw("\x7b\0\0\0\0\0\0\0\x05Hello") << 5; // strings with undefined length QTest::newRow("_emptybytestring") << raw("\x5f\xff") << 0; QTest::newRow("_emptytextstring") << raw("\x7f\xff") << 0; QTest::newRow("_emptybytestring2") << raw("\x5f\x40\xff") << 0; QTest::newRow("_emptytextstring2") << raw("\x7f\x60\xff") << 0; QTest::newRow("_emptybytestring3") << raw("\x5f\x40\x40\xff") << 0; QTest::newRow("_emptytextstring3") << raw("\x7f\x60\x60\xff") << 0; QTest::newRow("_bytestring5*2") << raw("\x5f\x43Hel\x42lo\xff") << 5; QTest::newRow("_textstring5*2") << raw("\x7f\x63Hel\x62lo\xff") << 5; QTest::newRow("_bytestring5*5") << raw("\x5f\x41H\x41""e\x41l\x41l\x41o\xff") << 5; QTest::newRow("_textstring5*5") << raw("\x7f\x61H\x61""e\x61l\x61l\x61o\xff") << 5; QTest::newRow("_bytestring5*6") << raw("\x5f\x41H\x41""e\x40\x41l\x41l\x41o\xff") << 5; QTest::newRow("_textstring5*6") << raw("\x7f\x61H\x61""e\x61l\x60\x61l\x61o\xff") << 5; } void tst_Parser::stringLength() { QFETCH(QByteArray, data); QFETCH(int, expected); ParserWrapper w; CborError err = w.init(data); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); size_t result; err = cbor_value_calculate_string_length(&w.first, &result); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); QCOMPARE(result, size_t(expected)); if (cbor_value_is_length_known(&w.first)) { QCOMPARE(cbor_value_get_string_length(&w.first, &result), CborNoError); QCOMPARE(result, size_t(expected)); } } void tst_Parser::stringCompare_data() { QTest::addColumn("data"); QTest::addColumn("string"); QTest::addColumn("expected"); // compare empty to empty QTest::newRow("empty-empty") << raw("\x60") << QString() << true; QTest::newRow("_empty-empty") << raw("\x7f\xff") << QString() << true; QTest::newRow("_empty*1-empty") << raw("\x7f\x60\xff") << QString() << true; QTest::newRow("_empty*2-empty") << raw("\x7f\x60\x60\xff") << QString() << true; // compare empty to non-empty QTest::newRow("empty-nonempty") << raw("\x60") << "Hello" << false; QTest::newRow("_empty-nonempty") << raw("\x7f\xff") << "Hello" << false; QTest::newRow("_empty*1-nonempty") << raw("\x7f\x60\xff") << "Hello" << false; QTest::newRow("_empty*2-nonempty") << raw("\x7f\x60\x60\xff") << "Hello" << false; // compare same strings QTest::newRow("same-short-short") << raw("\x65Hello") << "Hello" << true; QTest::newRow("same-_short*1-short") << raw("\x7f\x65Hello\xff") << "Hello" << true; QTest::newRow("same-_short*2-short") << raw("\x7f\x63Hel\x62lo\xff") << "Hello" << true; QTest::newRow("same-_short*5-short") << raw("\x7f\x61H\x61""e\x61l\x61l\x61o\xff") << "Hello" << true; QTest::newRow("same-_short*8-short") << raw("\x7f\x61H\x60\x61""e\x60\x61l\x61l\x60\x61o\xff") << "Hello" << true; QTest::newRow("same-long-long") << raw("\x78\x2aGood morning, good afternoon and goodnight") << "Good morning, good afternoon and goodnight" << true; QTest::newRow("same-_long*1-long") << raw("\x7f\x78\x2aGood morning, good afternoon and goodnight\xff") << "Good morning, good afternoon and goodnight" << true; QTest::newRow("same-_long*2-long") << raw("\x7f\x78\x1cGood morning, good afternoon\x6e and goodnight\xff") << "Good morning, good afternoon and goodnight" << true; // compare different strings (same length) QTest::newRow("diff-same-length-short-short") << raw("\x65Hello") << "World" << false; QTest::newRow("diff-same-length-_short*1-short") << raw("\x7f\x65Hello\xff") << "World" << false; QTest::newRow("diff-same-length-_short*2-short") << raw("\x7f\x63Hel\x62lo\xff") << "World" << false; QTest::newRow("diff-same-length-_short*5-short") << raw("\x7f\x61H\x61""e\x61l\x61l\x61o\xff") << "World" << false; QTest::newRow("diff-same-length-_short*8-short") << raw("\x7f\x61H\x60\x61""e\x60\x61l\x61l\x60\x61o\xff") << "World" << false; QTest::newRow("diff-same-length-long-long") << raw("\x78\x2aGood morning, good afternoon and goodnight") << "Good morning, good afternoon and goodnight, world" << false; QTest::newRow("diff-same-length-_long*1-long") << raw("\x7f\x78\x2aGood morning, good afternoon and goodnight\xff") << "Good morning, good afternoon and goodnight, world" << false; QTest::newRow("diff-same-length-_long*2-long") << raw("\x7f\x78\x1cGood morning, good afternoon\x6e and goodnight\xff") << "Good morning, good afternoon and goodnight, world" << false; // compare different strings (different length) QTest::newRow("diff-diff-length-short-short") << raw("\x65Hello") << "Hello World" << false; QTest::newRow("diff-diff-length-_short*1-short") << raw("\x7f\x65Hello\xff") << "Hello World" << false; QTest::newRow("diff-diff-length-_short*2-short") << raw("\x7f\x63Hel\x62lo\xff") << "Hello World" << false; QTest::newRow("diff-diff-length-_short*5-short") << raw("\x7f\x61H\x61""e\x61l\x61l\x61o\xff") << "Hello World" << false; QTest::newRow("diff-diff-length-_short*8-short") << raw("\x7f\x61H\x60\x61""e\x60\x61l\x61l\x60\x61o\xff") << "Hello World" << false; QTest::newRow("diff-diff-length-long-long") << raw("\x78\x2aGood morning, good afternoon and goodnight") << "Good morning, good afternoon and goodnight World" << false; QTest::newRow("diff-diff-length-_long*1-long") << raw("\x7f\x78\x2aGood morning, good afternoon and goodnight\xff") << "Good morning, good afternoon and goodnight World" << false; QTest::newRow("diff-diff-length-_long*2-long") << raw("\x7f\x78\x1cGood morning, good afternoon\x6e and goodnight\xff") << "Good morning, good afternoon and goodnight World" << false; // compare against non-strings QTest::newRow("unsigned") << raw("\0") << "0" << false; QTest::newRow("negative") << raw("\x20") << "-1" << false; QTest::newRow("emptybytestring") << raw("\x40") << "" << false; QTest::newRow("_emptybytestring") << raw("\x5f\xff") << "" << false; QTest::newRow("shortbytestring") << raw("\x45Hello") << "Hello" << false; QTest::newRow("longbytestring") << raw("\x58\x2aGood morning, good afternoon and goodnight") << "Good morning, good afternoon and goodnight" << false; QTest::newRow("emptyarray") << raw("\x80") << "" << false; QTest::newRow("emptymap") << raw("\xa0") << "" << false; QTest::newRow("array") << raw("\x81\x65Hello") << "Hello" << false; QTest::newRow("map") << raw("\xa1\x65Hello\x65World") << "Hello World" << false; QTest::newRow("false") << raw("\xf4") << "false" << false; QTest::newRow("true") << raw("\xf5") << "true" << false; QTest::newRow("null") << raw("\xf6") << "null" << false; } void compareOneString(const QByteArray &data, const QString &string, bool expected, int line) { compareFailed = true; ParserWrapper w; CborError err = w.init(data); QVERIFY2(!err, QByteArray::number(line) + ": Got error \"" + cbor_error_string(err) + "\""); bool result; QByteArray bastring = string.toUtf8(); err = cbor_value_text_string_equals(&w.first, bastring.constData(), &result); QVERIFY2(!err, QByteArray::number(line) + ": Got error \"" + cbor_error_string(err) + "\""); QCOMPARE(result, expected); if (expected) { size_t len; cbor_value_skip_tag(&w.first); if (cbor_value_is_length_known(&w.first)) { QCOMPARE(cbor_value_get_string_length(&w.first, &len), CborNoError); QCOMPARE(int(len), bastring.size()); } QCOMPARE(cbor_value_calculate_string_length(&w.first, &len), CborNoError); QCOMPARE(int(len), bastring.size()); } compareFailed = false; } #define compareOneString(data, string, expected) compareOneString(data, string, expected, __LINE__) void tst_Parser::stringCompare() { QFETCH(QByteArray, data); QFETCH(QString, string); QFETCH(bool, expected); compareOneString(data, string, expected); if (compareFailed) return; // tag it compareOneString("\xc1" + data, string, expected); if (compareFailed) return; compareOneString("\xc1\xc2" + data, string, expected); } void tst_Parser::mapFind_data() { // Rules: // we are searching for string "needle" // if present, the value should be the string "haystack" (with tag 42) QTest::addColumn("data"); QTest::addColumn("expected"); QTest::newRow("emptymap") << raw("\xa0") << false; QTest::newRow("_emptymap") << raw("\xbf\xff") << false; // maps not containing our items QTest::newRow("absent-unsigned-unsigned") << raw("\xa1\0\0") << false; QTest::newRow("absent-taggedunsigned-unsigned") << raw("\xa1\xc0\0\0") << false; QTest::newRow("absent-unsigned-taggedunsigned") << raw("\xa1\0\xc0\0") << false; QTest::newRow("absent-taggedunsigned-taggedunsigned") << raw("\xa1\xc0\0\xc0\0") << false; QTest::newRow("absent-string-unsigned") << raw("\xa1\x68haystack\0") << false; QTest::newRow("absent-taggedstring-unsigned") << raw("\xa1\xc0\x68haystack\0") << false; QTest::newRow("absent-string-taggedunsigned") << raw("\xa1\x68haystack\xc0\0") << false; QTest::newRow("absent-taggedstring-taggedunsigned") << raw("\xa1\xc0\x68haystack\xc0\0") << false; QTest::newRow("absent-string-string") << raw("\xa1\x68haystack\x66needle") << false; QTest::newRow("absent-string-taggedstring") << raw("\xa1\x68haystack\xc0\x66needle") << false; QTest::newRow("absent-taggedstring-string") << raw("\xa1\xc0\x68haystack\x66needle") << false; QTest::newRow("absent-string-taggedstring") << raw("\xa1\xc0\x68haystack\xc0\x66needle") << false; QTest::newRow("absent-string-emptyarray") << raw("\xa1\x68haystack\x80") << false; QTest::newRow("absent-string-_emptyarray") << raw("\xa1\x68haystack\x9f\xff") << false; QTest::newRow("absent-string-array1") << raw("\xa1\x68haystack\x81\0") << false; QTest::newRow("absent-string-array2") << raw("\xa1\x68haystack\x85\0\1\2\3\4") << false; QTest::newRow("absent-string-array3") << raw("\xa1\x68haystack\x85\x63one\x63two\x65three\x64""four\x64""five") << false; QTest::newRow("absent-string-emptymap") << raw("\xa1\x68haystack\xa0") << false; QTest::newRow("absent-string-_emptymap") << raw("\xa1\x68haystack\xbf\xff") << false; QTest::newRow("absent-string-map") << raw("\xa1\x68haystack\xa1\x68haystack\x66needle") << false; QTest::newRow("absent-string-map2") << raw("\xa1\x68haystack\xa1\x68haystack\x66needle\61z\62yx") << false; // maps containing our items QTest::newRow("alone") << raw("\xa1\x66needle\xd8\x2a\x68haystack") << true; QTest::newRow("tagged") << raw("\xa1\xc1\x66needle\xd8\x2a\x68haystack") << true; QTest::newRow("doubletagged") << raw("\xa1\xc1\xc2\x66needle\xd8\x2a\x68haystack") << true; QTest::newRow("chunked") << raw("\xa1\x7f\x66needle\xff\xd8\x2a\x68haystack") << true; QTest::newRow("chunked*2") << raw("\xa1\x7f\x60\x66needle\xff\xd8\x2a\x68haystack") << true; QTest::newRow("chunked*2bis") << raw("\xa1\x7f\x66needle\x60\xff\xd8\x2a\x68haystack") << true; QTest::newRow("chunked*3") << raw("\xa1\x7f\x62ne\x62""ed\x62le\xff\xd8\x2a\x68haystack") << true; QTest::newRow("chunked*8") << raw("\xa1\x7f\x61n\x61""e\x60\x61""e\x61""d\x60\x62le\x60\xff\xd8\x2a\x68haystack") << true; QTest::newRow("1before") << raw("\xa2\x68haystack\x66needle\x66needle\xd8\x2a\x68haystack") << true; QTest::newRow("tagged-1before") << raw("\xa2\xc1\x68haystack\x66needle\xc1\x66needle\xd8\x2a\x68haystack") << true; QTest::newRow("doubletagged-1before2") << raw("\xa2\xc1\xc2\x68haystack\x66needle\xc1\xc2\x66needle\xd8\x2a\x68haystack") << true; QTest::newRow("arraybefore") << raw("\xa2\x61z\x80\x66needle\xd8\x2a\x68haystack") << true; QTest::newRow("nestedarraybefore") << raw("\xa2\x61z\x81\x81\0\x66needle\xd8\x2a\x68haystack") << true; QTest::newRow("arrayarraybefore") << raw("\xa2\x82\1\2\x80\x66needle\xd8\x2a\x68haystack") << true; QTest::newRow("mapbefore") << raw("\xa2\x61z\xa0\x66needle\xd8\x2a\x68haystack") << true; QTest::newRow("nestedmapbefore") << raw("\xa2\x61z\xa1\0\x81\0\x66needle\xd8\x2a\x68haystack") << true; QTest::newRow("mapmapbefore") << raw("\xa2\xa1\1\2\xa0\x66needle\xd8\x2a\x68haystack") << true; } void tst_Parser::mapFind() { QFETCH(QByteArray, data); QFETCH(bool, expected); ParserWrapper w; CborError err = w.init(data); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); CborValue element; err = cbor_value_map_find_value(&w.first, "needle", &element); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); if (expected) { QCOMPARE(int(element.type), int(CborTagType)); CborTag tag; err = cbor_value_get_tag(&element, &tag); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); QCOMPARE(int(tag), 42); bool equals; err = cbor_value_text_string_equals(&element, "haystack", &equals); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); QVERIFY(equals); } else { QCOMPARE(int(element.type), int(CborInvalidType)); } } void tst_Parser::checkedIntegers_data() { QTest::addColumn("data"); QTest::addColumn("result"); // QVariant so we can note numbers out of int64_t range QTest::newRow("0") << raw("\x00") << QVariant(Q_INT64_C(0)); QTest::newRow("1") << raw("\x01") << QVariant(Q_INT64_C(1)); QTest::newRow("10") << raw("\x0a") << QVariant(Q_INT64_C(10)); QTest::newRow("23") << raw("\x17") << QVariant(Q_INT64_C(23)); QTest::newRow("24") << raw("\x18\x18") << QVariant(Q_INT64_C(24)); QTest::newRow("UINT8_MAX") << raw("\x18\xff") << QVariant(Q_INT64_C(255)); QTest::newRow("UINT8_MAX+1") << raw("\x19\x01\x00") << QVariant(Q_INT64_C(256)); QTest::newRow("UINT16_MAX") << raw("\x19\xff\xff") << QVariant(Q_INT64_C(65535)); QTest::newRow("UINT16_MAX+1") << raw("\x1a\0\1\x00\x00") << QVariant(Q_INT64_C(65536)); QTest::newRow("INT32_MAX") << raw("\x1a\x7f\xff\xff\xff") << QVariant(Q_INT64_C(2147483647)); QTest::newRow("INT32_MAX+1") << raw("\x1a\x80\x00\x00\x00") << QVariant(Q_INT64_C(2147483648)); QTest::newRow("UINT32_MAX") << raw("\x1a\xff\xff\xff\xff") << QVariant(Q_INT64_C(4294967295)); QTest::newRow("UINT32_MAX+1") << raw("\x1b\0\0\0\1\0\0\0\0") << QVariant(Q_INT64_C(4294967296)); QTest::newRow("UINT64_MAX") << raw("\x1b" "\xff\xff\xff\xff" "\xff\xff\xff\xff") << QVariant(); // out of range // negative integers QTest::newRow("-1") << raw("\x20") << QVariant(Q_INT64_C(-1)); QTest::newRow("-2") << raw("\x21") << QVariant(Q_INT64_C(-2)); QTest::newRow("-24") << raw("\x37") << QVariant(Q_INT64_C(-24)); QTest::newRow("-25") << raw("\x38\x18") << QVariant(Q_INT64_C(-25)); QTest::newRow("-UINT8_MAX") << raw("\x38\xff") << QVariant(Q_INT64_C(-256)); QTest::newRow("-UINT8_MAX-1") << raw("\x39\x01\x00") << QVariant(Q_INT64_C(-257)); QTest::newRow("-UINT16_MAX") << raw("\x39\xff\xff") << QVariant(Q_INT64_C(-65536)); QTest::newRow("-UINT16_MAX-1") << raw("\x3a\0\1\x00\x00") << QVariant(Q_INT64_C(-65537)); QTest::newRow("INT32_MIN") << raw("\x3a\x7f\xff\xff\xff") << QVariant(Q_INT64_C(-2147483648)); QTest::newRow("INT32_MIN-1") << raw("\x3a\x80\x00\x00\x00") << QVariant(Q_INT64_C(-2147483649)); QTest::newRow("-UINT32_MAX") << raw("\x3a\xff\xff\xff\xff") << QVariant(Q_INT64_C(-4294967296)); QTest::newRow("-UINT32_MAX-1") << raw("\x3b\0\0\0\1\0\0\0\0") << QVariant(Q_INT64_C(-4294967297)); QTest::newRow("INT64_MIN+1") << raw("\x3b\x7f\xff\xff\xff""\xff\xff\xff\xfe") << QVariant(std::numeric_limits::min() + 1); QTest::newRow("INT64_MIN") << raw("\x3b\x7f\xff\xff\xff""\xff\xff\xff\xff") << QVariant(std::numeric_limits::min()); QTest::newRow("INT64_MIN-1") << raw("\x3b\x80\0\0\0""\0\0\0\0") << QVariant(); // out of range QTest::newRow("-UINT64_MAX") << raw("\x3b" "\xff\xff\xff\xff" "\xff\xff\xff\xfe") << QVariant(); // out of range QTest::newRow("-UINT64_MAX+1") << raw("\x3b" "\xff\xff\xff\xff" "\xff\xff\xff\xff") << QVariant(); // out of range } void tst_Parser::checkedIntegers() { QFETCH(QByteArray, data); QFETCH(QVariant, result); int64_t expected = result.toLongLong(); ParserWrapper w; CborError err = w.init(data); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); int64_t v; err = cbor_value_get_int64_checked(&w.first, &v); if (result.isNull()) { QCOMPARE(err, CborErrorDataTooLarge); } else { QCOMPARE(v, expected); } int v2; err = cbor_value_get_int_checked(&w.first, &v2); if (result.isNull() || expected < std::numeric_limits::min() || expected > std::numeric_limits::max()) { QCOMPARE(err, CborErrorDataTooLarge); } else { QCOMPARE(int64_t(v2), expected); } } void tst_Parser::validation_data() { addValidationColumns(); addValidationData(); } void tst_Parser::validation() { QFETCH(QByteArray, data); QFETCH(int, flags); QFETCH(CborError, expectedError); QString decoded; ParserWrapper w; CborError err = w.init(data, uint32_t(flags)); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); CborError err2 = cbor_value_validate_basic(&w.first); CborError err3 = cbor_value_validate(&w.first, CborValidateBasic); err = parseOne(&w.first, &decoded); QCOMPARE(err, expectedError); if (!QByteArray(QTest::currentDataTag()).contains("utf8")) { QCOMPARE(err2, expectedError); QCOMPARE(err3, expectedError); } // see if we've got a map if (QByteArray(QTest::currentDataTag()).startsWith("map")) { w.init(data, uint32_t(flags)); // reinit QVERIFY(cbor_value_is_array(&w.first)); CborValue map; CborError err = cbor_value_enter_container(&w.first, &map); if (err == CborNoError) { QVERIFY(cbor_value_is_map(&map)); CborValue element; err = cbor_value_map_find_value(&map, "foobar", &element); if (err == CborNoError) QVERIFY(!cbor_value_is_valid(&element)); } QCOMPARE(err, expectedError); } } void tst_Parser::strictValidation_data() { addValidationColumns(); // Canonical validation - fixed types QTest::newRow("unsigned-0") << raw("\x00") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("unsigned-24") << raw("\x18\x18") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("unsigned-256") << raw("\x19\1\0") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("unsigned-65536") << raw("\x1a\0\1\0\0") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("unsigned-4294967296") << raw("\x1b\0\0\0\1\0\0\0\0") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("overlong-unsigned-0*1") << raw("\x18\x00") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-unsigned-0*2") << raw("\x19\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-unsigned-0*4") << raw("\x1a\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-unsigned-0*8") << raw("\x1b\0\0\0\0\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-unsigned-24*2") << raw("\x19\0\x18") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-unsigned-24*4") << raw("\x1a\0\0\0\x18") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-unsigned-24*8") << raw("\x1b\0\0\0\0\0\0\0\x18") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-unsigned-256*4") << raw("\x1a\0\0\1\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-unsigned-256*8") << raw("\x1b\0\0\0\0\0\0\1\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-unsigned-65536*8") << raw("\x1b\0\0\0\0\0\1\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("negative-1") << raw("\x20") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("negative-25") << raw("\x38\x38") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("negative-257") << raw("\x39\1\0") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("negative-65537") << raw("\x3a\0\1\0\0") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("negative-4294967297") << raw("\x3b\0\0\0\1\0\0\0\0") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("overlong-negative-1*1") << raw("\x38\x00") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-negative-1*2") << raw("\x39\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-negative-1*4") << raw("\x3a\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-negative-1*8") << raw("\x3b\0\0\0\0\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-negative-25*2") << raw("\x39\0\x18") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-negative-25*4") << raw("\x3a\0\0\0\x18") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-negative-25*8") << raw("\x3b\0\0\0\0\0\0\0\x18") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-negative-257*4") << raw("\x3a\0\0\1\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-negative-257*8") << raw("\x3b\0\0\0\0\0\0\1\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-negative-65537*8") << raw("\x3b\0\0\0\0\0\1\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("simple-0") << raw("\xe0") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("false") << raw("\xf4") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("true") << raw("\xf5") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("null") << raw("\xf6") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("undefined") << raw("\xf7") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("simple-32") << raw("\xf8\x20") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("fp-nan") << raw("\xf9\x7e\00") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("fp--inf") << raw("\xf9\xfc\00") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("fp-+inf") << raw("\xf9\x7c\00") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("overlong-fp-nan_f") << raw("\xfa\x7f\xc0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-fp--inf_f") << raw("\xfa\xff\x80\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-fp-+inf_f") << raw("\xfa\x7f\x80\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-fp-nan") << raw("\xfb\x7f\xf8\0\0\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-fp--inf") << raw("\xfb\xff\xf0\0\0\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-fp-+inf") << raw("\xfb\x7f\xf0\0\0\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; // canonical - lengths QByteArray data24(24, 0x20); // also decodes as -1 QByteArray data256(256, 0x40); // also decodes as h'' QByteArray data65536(65536, 0x60);// also decodes as "" QTest::newRow("bytearray-0") << raw("\x40") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("bytearray-24") << (raw("\x58\x18") + data24) << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("bytearray-256") << (raw("\x59\1\0") + data256) << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("bytearray-65536") << (raw("\x5a\0\1\0\0") + data65536) << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("_bytearray-0") << raw("\x5f\xff") << int(CborValidateCanonicalFormat) << CborErrorUnknownLength; QTest::newRow("overlong-bytearray-0*1") << raw("\x58\x00") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-bytearray-0*2") << raw("\x59\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-bytearray-0*4") << raw("\x5a\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-bytearray-0*8") << raw("\x5b\0\0\0\0\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-bytearray-24*2") << (raw("\x59\0\x18") + data24) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-bytearray-24*4") << (raw("\x5a\0\0\0\x18") + data24) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-bytearray-24*8") << (raw("\x5b\0\0\0\0\0\0\0\x18") + data24) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-bytearray-256*4") << (raw("\x5a\0\0\1\0") + data256) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-bytearray-256*8") << (raw("\x5b\0\0\0\0\0\0\1\0") + data256) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-bytearray-65536*8") << (raw("\x5b\0\0\0\0\0\1\0\0") + data65536) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("string-0") << raw("\x60") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("string-24") << (raw("\x78\x18") + data24) << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("string-256") << (raw("\x79\1\0") + data256) << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("string-65536") << (raw("\x7a\0\1\0\0") + data65536) << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("_string-0") << raw("\x7f\xff") << int(CborValidateCanonicalFormat) << CborErrorUnknownLength; QTest::newRow("overlong-string-0*1") << raw("\x78\x00") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-string-0*2") << raw("\x79\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-string-0*4") << raw("\x7a\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-string-0*8") << raw("\x7b\0\0\0\0\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-string-24*2") << (raw("\x79\0\x18") + data24) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-string-24*4") << (raw("\x7a\0\0\0\x18") + data24) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-string-24*8") << (raw("\x7b\0\0\0\0\0\0\0\x18") + data24) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-string-256*4") << (raw("\x7a\0\0\1\0") + data256) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-string-256*8") << (raw("\x7b\0\0\0\0\0\0\1\0") + data256) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-string-65536*8") << (raw("\x7b\0\0\0\0\0\1\0\0") + data65536) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("array-0") << raw("\x80") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("array-24") << (raw("\x98\x18") + data24) << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("array-256") << (raw("\x99\1\0") + data256) << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("array-65536") << (raw("\x9a\0\1\0\0") + data65536) << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("_array-0") << raw("\x9f\xff") << int(CborValidateCanonicalFormat) << CborErrorUnknownLength; QTest::newRow("overlong-array-0*1") << raw("\x98\x00") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-array-0*2") << raw("\x99\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-array-0*4") << raw("\x9a\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-array-0*8") << raw("\x9b\0\0\0\0\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-array-24*2") << (raw("\x99\0\x18") + data24) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-array-24*4") << (raw("\x9a\0\0\0\x18") + data24) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-array-24*8") << (raw("\x9b\0\0\0\0\0\0\0\x18") + data24) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-array-256*4") << (raw("\x9a\0\0\1\0") + data256) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-array-256*8") << (raw("\x9b\0\0\0\0\0\0\1\0") + data256) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-array-65536*8") << (raw("\x9b\0\0\0\0\0\1\0\0") + data65536) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; // we need unique, sorted, string keys for map // we'll make all key-value pairs a total of 4 bytes char mapentry[] = { 0x62, 0, 0, 0x20 }; QByteArray mapdata24(24 * sizeof(mapentry), Qt::Uninitialized); QByteArray mapdata256(256 * sizeof(mapentry), Qt::Uninitialized); char *mapdata24ptr = mapdata24.data(); char *mapdata256ptr = mapdata256.data(); for (int i = 0; i < 256; ++i) { mapentry[1] = 'A' + (i >> 4); mapentry[2] = 'a' + (i & 0xf); memcpy(mapdata256ptr + i * sizeof(mapentry), mapentry, sizeof(mapentry)); if (i < 24) memcpy(mapdata24ptr + i * sizeof(mapentry), mapentry, sizeof(mapentry)); } QTest::newRow("map-0") << raw("\xa0") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("map-24") << (raw("\xb8\x18") + mapdata24) << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("map-256") << (raw("\xb9\1\0") + mapdata256) << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("_map-0") << raw("\xbf\xff") << int(CborValidateCanonicalFormat) << CborErrorUnknownLength; QTest::newRow("overlong-map-0*1") << raw("\xb8\x00") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-map-0*2") << raw("\xb9\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-map-0*4") << raw("\xba\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-map-0*8") << raw("\xbb\0\0\0\0\0\0\0\0") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-map-24*2") << (raw("\xb9\0\x18") + mapdata24) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-map-24*4") << (raw("\xba\0\0\0\x18") + mapdata24) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-map-24*8") << (raw("\xbb\0\0\0\0\0\0\0\x18") + mapdata24) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-map-256*4") << (raw("\xba\0\0\1\0") + mapdata256) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-map-256*8") << (raw("\xbb\0\0\0\0\0\0\1\0") + mapdata256) << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("unsorted-length-map-UU") << raw("\xa2\1\1\0\0") << int(CborValidateCanonicalFormat) << CborErrorMapNotSorted; QTest::newRow("unsorted-length-map-UUU") << raw("\xa3\1\1\1\1\0\0") << int(CborValidateCanonicalFormat) << CborErrorMapNotSorted; QTest::newRow("unsorted-length-map-SS") << raw("\xa2\x61z\1\x60\0") << int(CborValidateCanonicalFormat) << CborErrorMapNotSorted; QTest::newRow("unsorted-length-map-SSS") << raw("\xa3\x61z\1\x61z\2\x60\0") << int(CborValidateCanonicalFormat) << CborErrorMapNotSorted; QTest::newRow("unsorted-length-map-SB") << raw("\xa2\x61z\1\x40\0") << int(CborValidateCanonicalFormat) << CborErrorMapNotSorted; QTest::newRow("unsorted-length-map-AS") << raw("\xa2\x83\0\x20\x45Hello\1\x60\0") << int(CborValidateCanonicalFormat) << CborErrorMapNotSorted; QTest::newRow("unsorted-content-map-SS") << raw("\xa2\x61z\1\x61y\0") << int(CborValidateCanonicalFormat) << CborErrorMapNotSorted; QTest::newRow("unsorted-content-map-AS") << raw("\xa2\x81\x21\1\x61\x21\0") << int(CborValidateCanonicalFormat) << CborErrorMapNotSorted; QTest::newRow("tag-0") << raw("\xc0\x60") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("tag-24") << raw("\xd8\x18\x40") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("tag-65536") << raw("\xda\0\1\0\0\x60") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("tag-4294967296") << raw("\xdb\0\0\0\1\0\0\0\0\x60") << int(CborValidateCanonicalFormat) << CborNoError; QTest::newRow("overlong-tag-0*1") << raw("\xd8\x00\x60") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-tag-0*2") << raw("\xd9\0\0\x60") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-tag-0*4") << raw("\xda\0\0\0\0\x60") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-tag-0*8") << raw("\xdb\0\0\0\0\0\0\0\0\x60") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-tag-24*2") << raw("\xd9\0\x18\x60") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-tag-24*4") << raw("\xda\0\0\0\x18\x60") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-tag-24*8") << raw("\xdb\0\0\0\0\0\0\0\x18\x60") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-tag-256*4") << raw("\xda\0\0\1\0\x60") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-tag-256*8") << raw("\xdb\0\0\0\0\0\0\1\0\x60") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; QTest::newRow("overlong-tag-65536*8") << raw("\xdb\0\0\0\0\0\1\0\0\x60") << int(CborValidateCanonicalFormat) << CborErrorOverlongEncoding; // non-canonical: string length in chunked transfer QTest::newRow("overlong-_bytearray-0*1") << raw("\x5f\x58\x00\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_bytearray-0*2") << raw("\x5f\x59\0\0\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_bytearray-0*4") << raw("\x5f\x5a\0\0\0\0\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_bytearray-0*8") << raw("\x5f\x5b\0\0\0\0\0\0\0\0\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_bytearray-24*2") << (raw("\x5f\x59\0\x18") + data24 + '\xff') << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_bytearray-24*4") << (raw("\x5f\x5a\0\0\0\x18") + data24 + '\xff') << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_bytearray-24*8") << (raw("\x5f\x5b\0\0\0\0\0\0\0\x18") + data24 + '\xff') << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_bytearray-256*4") << (raw("\x5f\x5a\0\0\1\0") + data256 + '\xff') << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_bytearray-256*8") << (raw("\x5f\x5b\0\0\0\0\0\0\1\0") + data256 + '\xff') << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_bytearray-65536*8") << (raw("\x5f\x5b\0\0\0\0\0\1\0\0") + data65536 + '\xff') << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_bytearrayx2-0*1") << raw("\x5f\x40\x58\x00\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_bytearrayx2-0*2") << raw("\x5f\x40\x59\0\0\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_bytearrayx2-0*4") << raw("\x5f\x40\x5a\0\0\0\0\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_bytearrayx2-0*8") << raw("\x5f\x40\x5b\0\0\0\0\0\0\0\0\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_string-0*1") << raw("\x7f\x78\x00\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_string-0*2") << raw("\x7f\x79\0\0\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_string-0*4") << raw("\x7f\x7a\0\0\0\0\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_string-0*8") << raw("\x7f\x7b\0\0\0\0\0\0\0\0\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_string-24*2") << (raw("\x7f\x79\0\x18") + data24 + '\xff') << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_string-24*4") << (raw("\x7f\x7a\0\0\0\x18") + data24 + '\xff') << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_string-24*8") << (raw("\x7f\x7b\0\0\0\0\0\0\0\x18") + data24 + '\xff') << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_string-256*4") << (raw("\x7f\x7a\0\0\1\0") + data256 + '\xff') << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_string-256*8") << (raw("\x7f\x7b\0\0\0\0\0\0\1\0") + data256 + '\xff') << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_string-65536*8") << (raw("\x7f\x7b\0\0\0\0\0\1\0\0") + data65536 + '\xff') << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_stringx2-0*1") << raw("\x7f\x60\x78\x00\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_stringx2-0*2") << raw("\x7f\x60\x79\0\0\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_stringx2-0*4") << raw("\x7f\x60\x7a\0\0\0\0\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; QTest::newRow("overlong-_stringx2-0*8") << raw("\x7f\x60\x7b\0\0\0\0\0\0\0\0\xff") << int(CborValidateShortestNumbers) << CborErrorOverlongEncoding; // strict mode // UTF-8 sequences with invalid continuation bytes QTest::newRow("invalid-utf8-bad-continuation-1char") << raw("\x61\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-bad-continuation-2chars-1") << raw("\x62\xc2\xc0") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-bad-continuation-2chars-2") << raw("\x62\xc3\xdf") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-bad-continuation-2chars-3") << raw("\x62\xc7\xf0") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-bad-continuation-3chars-1") << raw("\x63\xe0\xa0\xc0") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-bad-continuation-3chars-2") << raw("\x63\xe0\xc0\xa0") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-bad-continuation-4chars-1") << raw("\x64\xf0\x90\x80\xc0") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-bad-continuation-4chars-2") << raw("\x64\xf0\x90\xc0\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-bad-continuation-4chars-3") << raw("\x64\xf0\xc0\x80\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; // Too short UTF-8 sequences (in an array so there's a byte after that would make it valid UTF-8 if it were part of the string) QTest::newRow("invalid-utf8-too-short-2chars") << raw("\x82\x61\xc2\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-too-short-3chars-1") << raw("\x82\x61\xe0\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-too-short-3chars-2") << raw("\x82\x62\xe0\xa0\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-too-short-4chars-1") << raw("\x82\x61\xf0\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-too-short-4chars-2") << raw("\x82\x62\xf0\x90\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-too-short-4chars-3") << raw("\x82\x63\xf0\x90\x80\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; // UTF-16 surrogages encoded in UTF-8 QTest::newRow("invalid-utf8-hi-surrogate") << raw("\x63\xed\xa0\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-lo-surrogate") << raw("\x63\xed\xb0\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-surrogate-pair") << raw("\x66\xed\xa0\x80\xed\xb0\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; // Non-Unicode UTF-8 sequences QTest::newRow("invalid-utf8-non-unicode-1") << raw("\x64\xf4\x90\x80\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-non-unicode-2") << raw("\x65\xf8\x88\x80\x80\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-non-unicode-3") << raw("\x66\xfc\x84\x80\x80\x80\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-non-unicode-4") << raw("\x66\xfd\xbf\xbf\xbf\xbf\xbf") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; // invalid bytes in UTF-8 QTest::newRow("invalid-utf8-fe") << raw("\x61\xfe") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-ff") << raw("\x61\xff") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; // Overlong sequences QTest::newRow("invalid-utf8-overlong-1-2") << raw("\x62\xc1\x81") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-overlong-1-3") << raw("\x63\xe0\x81\x81") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-overlong-1-4") << raw("\x64\xf0\x80\x81\x81") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-overlong-1-5") << raw("\x65\xf8\x80\x80\x81\x81") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-overlong-1-6") << raw("\x66\xfc\x80\x80\x80\x81\x81") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-overlong-2-3") << raw("\x63\xe0\x82\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-overlong-2-4") << raw("\x64\xf0\x80\x82\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-overlong-2-5") << raw("\x65\xf8\x80\x80\x82\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-overlong-2-6") << raw("\x66\xfc\x80\x80\x80\x82\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-overlong-3-4") << raw("\x64\xf0\x80\xa0\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-overlong-3-5") << raw("\x65\xf8\x80\x80\xa0\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-overlong-3-6") << raw("\x66\xfc\x80\x80\x80\xa0\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-overlong-4-5") << raw("\x65\xf8\x80\x84\x80\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("invalid-utf8-overlong-4-6") << raw("\x66\xfc\x80\x80\x84\x80\x80") << int(CborValidateStrictMode) << CborErrorInvalidUtf8TextString; QTest::newRow("nonunique-content-map-UU") << raw("\xa2\0\1\0\2") << int(CborValidateStrictMode) << CborErrorMapKeysNotUnique; QTest::newRow("nonunique-content-map-SS") << raw("\xa2\x61z\1\x61z\2") << int(CborValidateStrictMode) << CborErrorMapKeysNotUnique; QTest::newRow("nonunique-content-map-AA") << raw("\xa2\x81\x65Hello\1\x81\x65Hello\2") << int(CborValidateStrictMode) << CborErrorMapKeysNotUnique; QTest::newRow("tag-0-unsigned") << raw("\xc0\x00") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-0-bytearray") << raw("\xc0\x40") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-0-string") << raw("\xc0\x60") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-0-tag-0-string") << raw("\xc0\xc0\x60") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-1-unsigned") << raw("\xc1\x00") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-1-negative") << raw("\xc1\x20") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-1-bytearray") << raw("\xc1\x40") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-2-bytearray") << raw("\xc2\x40") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-2-string") << raw("\xc2\x60") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-3-bytearray") << raw("\xc3\x40") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-3-string") << raw("\xc3\x60") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-4-string") << raw("\xc4\x60") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-4-array") << raw("\xc4\x82\0\1") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-5-string") << raw("\xc5\x60") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-5-array") << raw("\xc5\x82\0\1") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-21-bytearray") << raw("\xd5\x40") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-21-string") << raw("\xd5\x60") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-21-array") << raw("\xd5\x80") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-21-map") << raw("\xd5\xa0") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-22-bytearray") << raw("\xd6\x40") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-22-string") << raw("\xd6\x60") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-22-array") << raw("\xd6\x80") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-22-map") << raw("\xd6\xa0") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-23-bytearray") << raw("\xd7\x40") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-23-string") << raw("\xd7\x60") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-23-array") << raw("\xd7\x80") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-23-map") << raw("\xd7\xa0") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-24-bytearray") << raw("\xd8\x18\x40") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-24-string") << raw("\xd8\x18\x60") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-32-bytearray") << raw("\xd8\x20\x40") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-32-string") << raw("\xd8\x20\x60") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-33-bytearray") << raw("\xd8\x21\x40") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-33-string") << raw("\xd8\x21\x60") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-34-bytearray") << raw("\xd8\x22\x40") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-34-string") << raw("\xd8\x22\x60") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-35-bytearray") << raw("\xd8\x23\x40") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-35-string") << raw("\xd8\x23\x60") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-36-bytearray") << raw("\xd8\x24\x40") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-36-string") << raw("\xd8\x24\x60") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-unsigned") << raw("\xd9\xd9\xf7\x00") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-negative") << raw("\xd9\xd9\xf7\x20") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-bytearray") << raw("\xd9\xd9\xf7\x40") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-string") << raw("\xd9\xd9\xf7\x60") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-array") << raw("\xd9\xd9\xf7\x80") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-map") << raw("\xd9\xd9\xf7\xa0") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-tag-0-unsigned") << raw("\xd9\xd9\xf7\xc0\x00") << int(CborValidateStrictMode) << CborErrorInappropriateTagForType; QTest::newRow("tag-55799-tag-0-string") << raw("\xd9\xd9\xf7\xc0\x60") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-simple0") << raw("\xd9\xd9\xf7\xe0") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-false") << raw("\xd9\xd9\xf7\xf4") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-true") << raw("\xd9\xd9\xf7\xf5") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-null") << raw("\xd9\xd9\xf7\xf6") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-undefined") << raw("\xd9\xd9\xf7\xf7") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-simple32") << raw("\xd9\xd9\xf7\xf8\x20") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-half") << raw("\xd9\xd9\xf7\xf9\0\0") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-float") << raw("\xd9\xd9\xf7\xfa\0\0\0\0") << int(CborValidateStrictMode) << CborNoError; QTest::newRow("tag-55799-double") << raw("\xd9\xd9\xf7\xfb\0\0\0\0\0\0\0\0") << int(CborValidateStrictMode) << CborNoError; // excluded non-finite QTest::newRow("excluded-fp-nan") << raw("\xfb\x7f\xf8\0\0\0\0\0\0") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; QTest::newRow("excluded-fp-nan_f") << raw("\xfa\x7f\xc0\0\0") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; QTest::newRow("excluded-fp--inf_f") << raw("\xfa\xff\x80\0\0") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; QTest::newRow("excluded-fp--inf") << raw("\xfb\xff\xf0\0\0\0\0\0\0") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; QTest::newRow("excluded-fp-+inf_f") << raw("\xfa\x7f\x80\0\0") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; QTest::newRow("excluded-fp-+inf") << raw("\xfb\x7f\xf0\0\0\0\0\0\0") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; // excluded undefined QTest::newRow("no-undefined") << raw("\xf7") << int(CborValidateNoUndefined) << CborErrorExcludedType; // exclude non-finite QTest::newRow("excluded-fp-nan_f16") << raw("\xf9\x7e\00") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; QTest::newRow("excluded-fp--inf_f16") << raw("\xf9\xfc\00") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; QTest::newRow("excluded-fp-+inf_f16") << raw("\xf9\x7c\00") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; QTest::newRow("excluded-fp-nan_f") << raw("\xfa\x7f\xc0\0\0") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; QTest::newRow("excluded-fp--inf_f") << raw("\xfa\xff\x80\0\0") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; QTest::newRow("excluded-fp-+inf_f") << raw("\xfa\x7f\x80\0\0") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; QTest::newRow("excluded-fp-nan") << raw("\xfb\x7f\xf8\0\0\0\0\0\0") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; QTest::newRow("excluded-fp--inf") << raw("\xfb\xff\xf0\0\0\0\0\0\0") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; QTest::newRow("excluded-fp-+inf") << raw("\xfb\x7f\xf0\0\0\0\0\0\0") << int(CborValidateFiniteFloatingPoint) << CborErrorExcludedValue; // exclude non-string keys in maps QTest::newRow("excluded-map-unsigned") << raw("\xa1\x00\1") << int(CborValidateMapKeysAreString) << CborErrorMapKeyNotString; QTest::newRow("excluded-map-negative") << raw("\xa1\x20\1") << int(CborValidateMapKeysAreString) << CborErrorMapKeyNotString; QTest::newRow("excluded-map-bytearray") << raw("\xa1\x40\1") << int(CborValidateMapKeysAreString) << CborErrorMapKeyNotString; QTest::newRow("map-string") << raw("\xa1\x60\1") << int(CborValidateMapKeysAreString) << CborNoError; QTest::newRow("map-tag-0-string") << raw("\xa1\xc0\x60\1") << int(CborValidateMapKeysAreString) << CborNoError; QTest::newRow("excluded-map-array") << raw("\xa1\x80\1") << int(CborValidateMapKeysAreString) << CborErrorMapKeyNotString; QTest::newRow("excluded-map-map") << raw("\xa1\xa0\1") << int(CborValidateMapKeysAreString) << CborErrorMapKeyNotString; QTest::newRow("excluded-map-simple-0") << raw("\xa1\xe0\1") << int(CborValidateMapKeysAreString) << CborErrorMapKeyNotString; QTest::newRow("excluded-map-false") << raw("\xa1\xf4\1") << int(CborValidateMapKeysAreString) << CborErrorMapKeyNotString; QTest::newRow("excluded-map-true") << raw("\xa1\xf5\1") << int(CborValidateMapKeysAreString) << CborErrorMapKeyNotString; QTest::newRow("excluded-map-null") << raw("\xa1\xf6\1") << int(CborValidateMapKeysAreString) << CborErrorMapKeyNotString; QTest::newRow("excluded-map-undefined") << raw("\xa1\xf7\1") << int(CborValidateMapKeysAreString) << CborErrorMapKeyNotString; QTest::newRow("excluded-map-half") << raw("\xa1\xf9\0\0\1") << int(CborValidateMapKeysAreString) << CborErrorMapKeyNotString; QTest::newRow("excluded-map-float") << raw("\xa1\xfa\0\0\0\0\1") << int(CborValidateMapKeysAreString) << CborErrorMapKeyNotString; QTest::newRow("excluded-map-double") << raw("\xa1\xfb\0\0\0\0\0\0\0\0\1") << int(CborValidateMapKeysAreString) << CborErrorMapKeyNotString; // unknown simple types QTest::newRow("unknown-simple-type-0") << raw("\xe0") << int(CborValidateNoUnknownSimpleTypes) << CborErrorUnknownSimpleType; QTest::newRow("unknown-simple-type-32") << raw("\xf8\x20") << int(CborValidateNoUnknownSimpleTypes) << CborErrorUnknownSimpleType; QTest::newRow("allowed-simple-type-32") << raw("\xf8\x20") << int(CborValidateNoUnknownSimpleTypesSA) << CborNoError; // unknown tags QTest::newRow("unknown-tag-6") << raw("\xc6\x60") << int(CborValidateNoUnknownTags) << CborErrorUnknownTag; QTest::newRow("unknown-tag-31") << raw("\xd8\x1f\x60") << int(CborValidateNoUnknownTags) << CborErrorUnknownTag; QTest::newRow("unknown-tag-256") << raw("\xd9\1\0\x60") << int(CborValidateNoUnknownTags) << CborErrorUnknownTag; QTest::newRow("unknown-tag-65536") << raw("\xda\0\1\0\0\x60") << int(CborValidateNoUnknownTags) << CborErrorUnknownTag; QTest::newRow("unknown-tag-4294967296") << raw("\xdb\0\0\0\1\0\0\0\0\x60") << int(CborValidateNoUnknownTags) << CborErrorUnknownTag; QTest::newRow("allowed-tag-31") << raw("\xd8\x1f\x60") << int(CborValidateNoUnknownTagsSA) << CborNoError; QTest::newRow("allowed-tag-256") << raw("\xd9\1\0\x60") << int(CborValidateNoUnknownTagsSR) << CborNoError; // excluded tags QTest::newRow("excluded-tag-0") << raw("\xc0\x60") << int(CborValidateNoTags) << CborErrorExcludedType; QTest::newRow("excluded-tag-24") << raw("\xd8\x18\x40") << int(CborValidateNoTags) << CborErrorExcludedType; QTest::newRow("excluded-tag-55799") << raw("\xd9\xd9\xf7\x60") << int(CborValidateNoTags) << CborErrorExcludedType; // complete data QTest::newRow("garbage-data-0") << raw("\0\1") << int(CborValidateCompleteData) << CborErrorGarbageAtEnd; QTest::newRow("garbage-data-1") << raw("\x20\1") << int(CborValidateCompleteData) << CborErrorGarbageAtEnd; QTest::newRow("garbage-data-2") << raw("\x40\1") << int(CborValidateCompleteData) << CborErrorGarbageAtEnd; QTest::newRow("garbage-data-3") << raw("\x60\1") << int(CborValidateCompleteData) << CborErrorGarbageAtEnd; QTest::newRow("garbage-data-4") << raw("\x80\1") << int(CborValidateCompleteData) << CborErrorGarbageAtEnd; QTest::newRow("garbage-data-5") << raw("\xa0\1") << int(CborValidateCompleteData) << CborErrorGarbageAtEnd; QTest::newRow("garbage-data-6") << raw("\xc0\x60\1") << int(CborValidateCompleteData) << CborErrorGarbageAtEnd; QTest::newRow("garbage-data-7") << raw("\xf4\1") << int(CborValidateCompleteData) << CborErrorGarbageAtEnd; QTest::newRow("garbage-data-f16") << raw("\xf9\0\0\1") << int(CborValidateCompleteData) << CborErrorGarbageAtEnd; QTest::newRow("garbage-data-f32") << raw("\xfa\0\0\0\0\1") << int(CborValidateCompleteData) << CborErrorGarbageAtEnd; QTest::newRow("garbage-data-f64") << raw("\xfb\0\0\0\0\0\0\0\0\1") << int(CborValidateCompleteData) << CborErrorGarbageAtEnd; } void tst_Parser::strictValidation() { QFETCH(QByteArray, data); QFETCH(int, flags); QFETCH(CborError, expectedError); QString decoded; ParserWrapper w; CborError err = w.init(data); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); err = cbor_value_validate(&w.first, flags); QCOMPARE(err, expectedError); } void tst_Parser::incompleteData_data() { addColumns(); addFixedData(); addStringsData(); addTagsData(); addMapMixedData(); } void tst_Parser::incompleteData() { QFETCH(QByteArray, data); QFETCH(QString, expected); for (int len = 0; len < data.length() - 1; ++len) { ParserWrapper w; CborError err = w.init(data.constData(), len); if (!err) { QString decoded; err = parseOne(&w.first, &decoded); } if (err != CborErrorUnexpectedEOF) qDebug() << "Length is" << len; QCOMPARE(err, CborErrorUnexpectedEOF); } } void tst_Parser::endPointer_data() { QTest::addColumn("data"); QTest::addColumn("offset"); QTest::newRow("number1") << raw("\x81\x01\x01") << 2; QTest::newRow("number24") << raw("\x81\x18\x18\x01") << 3; QTest::newRow("string") << raw("\x81\x61Z\x01") << 3; QTest::newRow("indefinite-string") << raw("\x81\x7f\x61Z\xff\x01") << 5; QTest::newRow("array") << raw("\x81\x02\x01") << 2; QTest::newRow("indefinite-array") << raw("\x81\x9f\x02\xff\x01") << 4; QTest::newRow("object") << raw("\x81\xa1\x03\x02\x01") << 4; QTest::newRow("indefinite-object") << raw("\x81\xbf\x03\x02\xff\x01") << 5; } void tst_Parser::endPointer() { QFETCH(QByteArray, data); QFETCH(int, offset); QString decoded; ParserWrapper w; CborError err = w.init(data); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); err = parseOne(&w.first, &decoded); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); QCOMPARE(int(cbor_value_get_next_byte(&w.first) - w.begin()), offset); } void tst_Parser::recursionLimit_data() { static const int recursions = CBOR_PARSER_MAX_RECURSIONS + 2; QTest::addColumn("data"); QTest::newRow("array") << QByteArray(recursions, '\x81') + '\x20'; QTest::newRow("_array") << QByteArray(recursions, '\x9f') + '\x20' + QByteArray(recursions, '\xff'); QByteArray data; for (int i = 0; i < recursions; ++i) data += "\xa1\x65Hello"; data += '\2'; QTest::newRow("map-recursive-values") << data; data.clear(); for (int i = 0; i < recursions; ++i) data += "\xbf\x65World"; data += '\2'; for (int i = 0; i < recursions; ++i) data += "\xff"; QTest::newRow("_map-recursive-values") << data; data = QByteArray(recursions, '\xa1'); data += '\2'; for (int i = 0; i < recursions; ++i) data += "\x7f\x64quux\xff"; QTest::newRow("map-recursive-keys") << data; data = QByteArray(recursions, '\xbf'); data += '\2'; for (int i = 0; i < recursions; ++i) data += "\1\xff"; QTest::newRow("_map-recursive-keys") << data; data.clear(); for (int i = 0; i < recursions / 2; ++i) data += "\x81\xa1\1"; data += '\2'; QTest::newRow("mixed") << data; } void tst_Parser::recursionLimit() { QFETCH(QByteArray, data); ParserWrapper w; CborError err = w.init(data); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); // check that it is valid: CborValue it = w.first; { QString dummy; err = parseOne(&it, &dummy); QVERIFY2(!err, QByteArray("Got error \"") + cbor_error_string(err) + "\""); } it = w.first; err = cbor_value_advance(&it); QCOMPARE(err, CborErrorNestingTooDeep); it = w.first; if (cbor_value_is_map(&it)) { CborValue dummy; err = cbor_value_map_find_value(&it, "foo", &dummy); QCOMPARE(err, CborErrorNestingTooDeep); } } QTEST_MAIN(tst_Parser) #include "tst_parser.moc"