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448 | // Copyright (C) 2021-2024 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
#include <config.h>
#include <string><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <exceptions/exceptions.h>
#include <util/buffer.h>
#include <dns/exceptions.h>
#include <dns/messagerenderer.h>
#include <dns/rdata.h>
#include <dns/rdataclass.h>
#include <dns/rrclass.h>
#include <dns/rrtype.h>
#include <dns/time_utils.h>
#include <dns/tsigerror.h>
#include <gtest/gtest.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <dns/tests/unittest_util.h>
#include <dns/tests/rdata_unittest.h>
#include <util/unittests/wiredata.h>
using namespace std;
using namespace isc;
using namespace isc::dns;
using namespace isc::util;
using namespace isc::dns::rdata;
using isc::UnitTestUtil;
using isc::util::unittests::matchWireData;
namespace {
class Rdata_TKEY_Test : public RdataTest {
protected:
Rdata_TKEY_Test() :
// no Key or Other Data
valid_text1("gss-tsig. 20210501120000 20210501130000 GSS-API NOERROR 0 0"),
// Key but no Other Data
valid_text2("GSS-TSIG. 20210501120000 20210501130000 GSS-API BADSIG "
"12 FAKEFAKEFAKEFAKE 0"),
// Key and Other Data
valid_text3("gss.tsig. 20210501120000 20210501130000 GSS-API BADSIG "
"12 FAKEFAKEFAKEFAKE 6 FAKEFAKE"),
// Key and Other Data (with Error that doesn't expect Other Data)
valid_text4("gss.tsig. 20210501120000 20210501130000 3 BADSIG 12 "
"FAKEFAKEFAKEFAKE 6 FAKEFAKE"),
// numeric error code
valid_text5("GSS-TSIG. 20210501120000 20210501130000 GSS-API 2845 12 "
"FAKEFAKEFAKEFAKE 0"),
// GSS-API mode
valid_text6("gss-tsig. 20210501120000 20210501130000 GSS-API 0 12 "
"FAKEFAKEFAKEFAKE 0"),
rdata_tkey(valid_text1)
{}
void checkFromText_None(const string& rdata_str) {
checkFromText<generic::TKEY, isc::Exception, isc::Exception>(
rdata_str, rdata_tkey, false, false);
}
void checkFromText_InvalidTime(const string& rdata_str) {
checkFromText<generic::TKEY, InvalidTime, InvalidTime>(
rdata_str, rdata_tkey, true, true);
}
void checkFromText_InvalidText(const string& rdata_str) {
checkFromText<generic::TKEY, InvalidRdataText, InvalidRdataText>(
rdata_str, rdata_tkey, true, true);
}
void checkFromText_BadValue(const string& rdata_str) {
checkFromText<generic::TKEY, BadValue, BadValue>(
rdata_str, rdata_tkey, true, true);
}
void checkFromText_LexerError(const string& rdata_str) {
checkFromText
<generic::TKEY, InvalidRdataText, MasterLexer::LexerError>(
rdata_str, rdata_tkey, true, true);
}
void checkFromText_TooLongLabel(const string& rdata_str) {
checkFromText<generic::TKEY, TooLongLabel, TooLongLabel>(
rdata_str, rdata_tkey, true, true);
}
void checkFromText_EmptyLabel(const string& rdata_str) {
checkFromText<generic::TKEY, EmptyLabel, EmptyLabel>(
rdata_str, rdata_tkey, true, true);
}
void checkFromText_BadString(const string& rdata_str) {
checkFromText
<generic::TKEY, InvalidRdataText, isc::Exception>(
rdata_str, rdata_tkey, true, false);
}
template <typename Output>
void toWireCommonChecks(Output& output);
const string valid_text1;
const string valid_text2;
const string valid_text3;
const string valid_text4;
const string valid_text5;
const string valid_text6;
vector<uint8_t> expect_data;
const generic::TKEY rdata_tkey; // commonly used test RDATA
};
TEST_F(Rdata_TKEY_Test, fromText) {<--- syntax error
// normal case. it also tests getter methods.
EXPECT_EQ(Name("gss-tsig"), rdata_tkey.getAlgorithm());
EXPECT_EQ(1619870400, rdata_tkey.getInception());
EXPECT_EQ("20210501120000", rdata_tkey.getInceptionDate());
EXPECT_EQ(1619874000, rdata_tkey.getExpire());
EXPECT_EQ("20210501130000", rdata_tkey.getExpireDate());
EXPECT_EQ(3, rdata_tkey.getMode());
EXPECT_EQ(0, rdata_tkey.getError());
EXPECT_EQ(0, rdata_tkey.getKeyLen());
EXPECT_FALSE(rdata_tkey.getKey());
EXPECT_EQ(0, rdata_tkey.getOtherLen());
EXPECT_FALSE(rdata_tkey.getOtherData());
generic::TKEY tkey2(valid_text2);
EXPECT_EQ(12, tkey2.getKeyLen());
EXPECT_EQ(TSIGError::BAD_SIG_CODE, tkey2.getError());
generic::TKEY tkey3(valid_text3);
EXPECT_EQ(6, tkey3.getOtherLen());
// The other data is unusual, but we don't reject it.
EXPECT_NO_THROW(generic::TKEY tkey4(valid_text4));
// numeric representation of TKEY error
generic::TKEY tkey5(valid_text5);
EXPECT_EQ(2845, tkey5.getError());
// symbolic representation of TKEY mode
generic::TKEY tkey6(valid_text6);
EXPECT_EQ(generic::TKEY::GSS_API_MODE, tkey6.getMode());
// not fully qualified algorithm name
generic::TKEY tkey1("gss-tsig 20210501120000 20210501130000 3 0 0 0");
EXPECT_EQ(0, tkey1.compare(rdata_tkey));
// multi-line rdata
checkFromText_None("gss-tsig. ( 20210501120000 20210501130000 GSS-API \n"
"NOERROR 0 0 )");
};
TEST_F(Rdata_TKEY_Test, badText) {
// too many fields
checkFromText_BadString(valid_text1 + " 0 0");
// not enough fields
checkFromText_LexerError("foo 20210501120000 20210501130000 0 BADKEY");
// bad domain name
checkFromText_TooLongLabel(
"0123456789012345678901234567890123456789012345678901234567890123"
" 20210501120000 20210501130000 0 0 0 0");
checkFromText_EmptyLabel("foo..bar 20210501120000 20210501130000 0 0 0 0");
// invalid inception (no digit)
checkFromText_InvalidTime("foo TIME 20210501130000 0 0 0 0");
// invalid inception (bad format)
checkFromText_InvalidTime("foo 0 20210501130000 0 0 0 0");
// invalid expire (no digit)
checkFromText_InvalidTime("foo 20210501120000 TIME 0 0 0 0");
// invalid expire (bad format)
checkFromText_InvalidTime("foo 20210501120000 0 0 0 0 0");
// Unknown mode
checkFromText_InvalidText("foo 20210501120000 20210501130000 TEST 0 0 0");
// Numeric mode is is too large
checkFromText_InvalidText("foo 20210501120000 20210501130000 65536 0 0 0");
// Numeric mode is negative
checkFromText_InvalidText("foo 20210501120000 20210501130000 -1 0 0 0 0");
// Unknown error code
checkFromText_InvalidText("foo 20210501120000 20210501130000 0 TEST 0 0");
// Numeric error code is too large
checkFromText_InvalidText("foo 20210501120000 20210501130000 0 65536 0 0");
// Numeric error code is negative
checkFromText_InvalidText("foo 20210501120000 20210501130000 0 -1 0 0");
// Key len is too large
checkFromText_InvalidText("foo 20210501120000 20210501130000 0 0 65536 0");
// invalid Key len (negative)
checkFromText_LexerError("foo 20210501120000 20210501130000 0 0 -1 0");
// invalid Key len (not a number)
checkFromText_LexerError("foo 20210501120000 20210501130000 0 0 MACSIZE 0");
// Key len and Key mismatch
checkFromText_InvalidText("foo 20210501120000 20210501130000 0 0 9 FAKE 0");
// Key is bad base64
checkFromText_BadValue("foo 20210501120000 20210501130000 0 0 3 FAK= 0");
// Other len is too large
checkFromText_InvalidText("foo 20210501120000 20210501130000 0 0 0 65536 FAKE");
// Other len is negative
checkFromText_LexerError("foo 20210501120000 20210501130000 0 0 0 -1 FAKE");
// invalid Other len
checkFromText_LexerError("foo 20210501120000 20210501130000 0 0 0 LEN FAKE");
// Other len and data mismatch
checkFromText_InvalidText("foo 20210501120000 20210501130000 0 0 0 9 FAKE");
}
void
fromWireCommonChecks(const generic::TKEY& tkey) {
EXPECT_EQ(Name("gss-tsig"), tkey.getAlgorithm());
EXPECT_EQ(1619870400, tkey.getInception());
EXPECT_EQ("20210501120000", tkey.getInceptionDate());
EXPECT_EQ(1619874000, tkey.getExpire());
EXPECT_EQ("20210501130000", tkey.getExpireDate());
EXPECT_EQ(3, tkey.getMode());
EXPECT_EQ(0, tkey.getError());
vector<uint8_t> expect_key(32, 'x');
matchWireData(&expect_key[0], expect_key.size(),
tkey.getKey(), tkey.getKeyLen());
EXPECT_EQ(0, tkey.getOtherLen());
EXPECT_FALSE(tkey.getOtherData());
}
TEST_F(Rdata_TKEY_Test, createFromWire) {
RdataPtr rdata(rdataFactoryFromFile(RRType::TKEY(), RRClass::ANY(),
"rdata_tkey_fromWire1.wire"));
fromWireCommonChecks(dynamic_cast<generic::TKEY&>(*rdata));
}
TEST_F(Rdata_TKEY_Test, createFromWireWithOtherData) {
RdataPtr rdata(rdataFactoryFromFile(RRType::TKEY(), RRClass::ANY(),
"rdata_tkey_fromWire2.wire"));
const generic::TKEY& tkey(dynamic_cast<generic::TKEY&>(*rdata));
vector<uint8_t> expect_key(32, 'x');
matchWireData(&expect_key[0], expect_key.size(),
tkey.getKey(), tkey.getKeyLen());
vector<uint8_t> expect_data = { 'a', 'b', 'c', 'd', '0', '1', '2', '3' };
matchWireData(&expect_data[0], expect_data.size(),
tkey.getOtherData(), tkey.getOtherLen());
}
TEST_F(Rdata_TKEY_Test, createFromWireWithoutKey) {
RdataPtr rdata(rdataFactoryFromFile(RRType::TKEY(), RRClass::ANY(),
"rdata_tkey_fromWire3.wire"));
const generic::TKEY& tkey(dynamic_cast<generic::TKEY&>(*rdata));
EXPECT_EQ(0, tkey.getKeyLen());
EXPECT_FALSE(tkey.getKey());
vector<uint8_t> expect_data = { 'a', 'b', 'c', 'd', '0', '1', '2', '3' };
matchWireData(&expect_data[0], expect_data.size(),
tkey.getOtherData(), tkey.getOtherLen());
}
TEST_F(Rdata_TKEY_Test, createFromWireWithCompression) {
RdataPtr rdata(rdataFactoryFromFile(RRType::TKEY(), RRClass::ANY(),
"rdata_tkey_fromWire4.wire",
// we need to skip the dummy name:
Name("gss-tsig").getLength()));
fromWireCommonChecks(dynamic_cast<generic::TKEY&>(*rdata));
}
TEST_F(Rdata_TKEY_Test, badFromWire) {
// RDLENGTH is too short:
EXPECT_THROW(rdataFactoryFromFile(RRType::TKEY(), RRClass::ANY(),
"rdata_tkey_fromWire5.wire"),
InvalidRdataLength);
// RDLENGTH is too long:
EXPECT_THROW(rdataFactoryFromFile(RRType::TKEY(), RRClass::ANY(),
"rdata_tkey_fromWire6.wire"),
InvalidRdataLength);
// Algorithm name is broken:
EXPECT_THROW(rdataFactoryFromFile(RRType::TKEY(), RRClass::ANY(),
"rdata_tkey_fromWire7.wire"),
DNSMessageFORMERR);
// Key length is bogus:
EXPECT_THROW(rdataFactoryFromFile(RRType::TKEY(), RRClass::ANY(),
"rdata_tkey_fromWire8.wire"),
isc::OutOfRange);
// Other-data length is bogus:
EXPECT_THROW(rdataFactoryFromFile(RRType::TKEY(), RRClass::ANY(),
"rdata_tkey_fromWire9.wire"),
isc::OutOfRange);
}
TEST_F(Rdata_TKEY_Test, copyConstruct) {
const generic::TKEY copy(rdata_tkey);
EXPECT_EQ(0, copy.compare(rdata_tkey));
// Check the copied data is valid even after the original is deleted
generic::TKEY* copy2 = new generic::TKEY(rdata_tkey);
generic::TKEY copy3(*copy2);
delete copy2;
EXPECT_EQ(0, copy3.compare(rdata_tkey));
}
TEST_F(Rdata_TKEY_Test, createFromParams) {
EXPECT_EQ(0, rdata_tkey.compare(generic::TKEY(Name("gss-tsig"),
1619870400,
1619874000,
3, 0, 0, 0, 0, 0)));
const uint8_t fake_data[] = { 0x14, 0x02, 0x84, 0x14, 0x02, 0x84,
0x14, 0x02, 0x84, 0x14, 0x02, 0x84 };
EXPECT_EQ(0, generic::TKEY(valid_text2).compare(
generic::TKEY(Name("GSS-TSIG"), 1619870400, 1619874000,
3, 16, 12, fake_data, 0, 0)));
const uint8_t fake_data2[] = { 0x14, 0x02, 0x84, 0x14, 0x02, 0x84 };
EXPECT_EQ(0, generic::TKEY(valid_text3).compare(
generic::TKEY(Name("gss.tsig"), 1619870400, 1619874000,
3, 16, 12, fake_data, 6, fake_data2)));
EXPECT_THROW(generic::TKEY(Name("gss-tsig"), 0, 0, 0, 0, 0, fake_data, 0, 0),
isc::InvalidParameter);
EXPECT_THROW(generic::TKEY(Name("gss-tsig"), 0, 0, 0, 0, 12, 0, 0, 0),
isc::InvalidParameter);
EXPECT_THROW(generic::TKEY(Name("gss-tsig"), 0, 0, 0, 0, 0, 0, 0, fake_data),
isc::InvalidParameter);
EXPECT_THROW(generic::TKEY(Name("fake_data"), 0, 0, 0, 0, 0, 0, 6, 0),
isc::InvalidParameter);
}
TEST_F(Rdata_TKEY_Test, assignment) {
generic::TKEY copy(valid_text2);
copy = rdata_tkey;
EXPECT_EQ(0, copy.compare(rdata_tkey));
// Check if the copied data is valid even after the original is deleted
generic::TKEY* copy2 = new generic::TKEY(rdata_tkey);
generic::TKEY copy3(valid_text2);
copy3 = *copy2;
delete copy2;
EXPECT_EQ(0, copy3.compare(rdata_tkey));
// Self assignment
copy = *©
EXPECT_EQ(0, copy.compare(rdata_tkey));
}
template <typename Output>
void
Rdata_TKEY_Test::toWireCommonChecks(Output& output) {
output.clear();
expect_data.clear();
rdata_tkey.toWire(output);
// read the expected wire format data and trim the RDLEN part.
UnitTestUtil::readWireData("rdata_tkey_toWire1.wire", expect_data);
expect_data.erase(expect_data.begin(), expect_data.begin() + 2);
matchWireData(&expect_data[0], expect_data.size(),
output.getData(), output.getLength());
expect_data.clear();
output.clear();
generic::TKEY(valid_text2).toWire(output);
UnitTestUtil::readWireData("rdata_tkey_toWire2.wire", expect_data);
expect_data.erase(expect_data.begin(), expect_data.begin() + 2);
matchWireData(&expect_data[0], expect_data.size(),
output.getData(), output.getLength());
expect_data.clear();
output.clear();
generic::TKEY(valid_text3).toWire(output);
UnitTestUtil::readWireData("rdata_tkey_toWire3.wire", expect_data);
expect_data.erase(expect_data.begin(), expect_data.begin() + 2);
matchWireData(&expect_data[0], expect_data.size(),
output.getData(), output.getLength());
}
TEST_F(Rdata_TKEY_Test, toWireBuffer) {
toWireCommonChecks<OutputBuffer>(obuffer);
}
TEST_F(Rdata_TKEY_Test, toWireRenderer) {
toWireCommonChecks<MessageRenderer>(renderer);
// check algorithm name won't compressed when it would otherwise.
expect_data.clear();
renderer.clear();
renderer.writeName(Name("gss-tsig"));
renderer.writeUint16(26); // RDLEN
rdata_tkey.toWire(renderer);
UnitTestUtil::readWireData("rdata_tkey_toWire4.wire", expect_data);
matchWireData(&expect_data[0], expect_data.size(),
renderer.getData(), renderer.getLength());
// check algorithm can be used as a compression target.
expect_data.clear();
renderer.clear();
renderer.writeUint16(26);
rdata_tkey.toWire(renderer);
renderer.writeName(Name("gss-tsig"));
UnitTestUtil::readWireData("rdata_tkey_toWire5.wire", expect_data);
matchWireData(&expect_data[0], expect_data.size(),
renderer.getData(), renderer.getLength());
}
TEST_F(Rdata_TKEY_Test, toText) {
EXPECT_EQ(valid_text1, rdata_tkey.toText());
EXPECT_EQ(valid_text2, generic::TKEY(valid_text2).toText());
EXPECT_EQ(valid_text3, generic::TKEY(valid_text3).toText());
EXPECT_EQ(valid_text5, generic::TKEY(valid_text5).toText());
}
TEST_F(Rdata_TKEY_Test, compare) {
// test RDATAs, sorted in the ascending order.
// "AAAA" encoded in BASE64 corresponds to 0x000000, so it should be the
// smallest data of the same length.
vector<generic::TKEY> compare_set;
compare_set.push_back(generic::TKEY("a.example 20210501120000 "
"20210501130000 3 0 0 0"));
compare_set.push_back(generic::TKEY("example 20210501120000 "
"20210501130000 3 0 0 0"));
compare_set.push_back(generic::TKEY("example 20210501120001 "
"20210501130000 3 0 0 0"));
compare_set.push_back(generic::TKEY("example 20210501120001 "
"20210501130001 3 0 0 0"));
compare_set.push_back(generic::TKEY("example 20210501120001 "
"20210501130001 4 0 0 0"));
compare_set.push_back(generic::TKEY("example 20210501120001 "
"20210501130001 4 1 0 0"));
compare_set.push_back(generic::TKEY("example 20210501120001 "
"20210501130001 4 1 3 AAAA 0"));
compare_set.push_back(generic::TKEY("example 20210501120001 "
"20210501130001 4 1 3 FAKE 0"));
compare_set.push_back(generic::TKEY("example 20210501120001 "
"20210501130001 4 1 3 FAKE 3 AAAA"));
compare_set.push_back(generic::TKEY("example 20210501120001 "
"20210501130001 4 1 3 FAKE 3 FAKE"));
EXPECT_EQ(0,
compare_set[0].compare(generic::TKEY("A.EXAMPLE 20210501120000 "
"20210501130000 3 0 0 0")));
vector<generic::TKEY>::const_iterator it;
vector<generic::TKEY>::const_iterator it_end = compare_set.end();
for (it = compare_set.begin(); it != it_end - 1; ++it) {
EXPECT_GT(0, (*it).compare(*(it + 1)));
EXPECT_LT(0, (*(it + 1)).compare(*it));
}
// comparison attempt between incompatible RR types should be rejected
EXPECT_THROW(rdata_tkey.compare(*RdataTest::rdata_nomatch), bad_cast);
}
}
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