lokinet/test/test_dnslib.cpp
2018-12-04 11:52:48 -05:00

148 lines
3.9 KiB
C++

#include <llarp/dns/dns.hpp>
#include <gtest/gtest.h>
#include <algorithm>
#include <llarp/net.hpp>
struct DNSLibTest : public ::testing::Test
{
byte_t mem[1500];
llarp_buffer_t buf = llarp::StackBuffer< decltype(mem) >(mem);
void
SetUp()
{
buf.sz = sizeof(mem);
Rewind();
memset(mem, '$', sizeof(mem));
}
void
Rewind()
{
buf.cur = buf.base;
}
};
TEST_F(DNSLibTest, TestPTR)
{
llarp::huint32_t ip = {0};
llarp::huint32_t expected = llarp::ipaddr_ipv4_bits(10, 10, 10, 1);
ASSERT_TRUE(llarp::dns::DecodePTR("1.10.10.10.in-addr.arpa.", ip));
ASSERT_EQ(ip, expected);
};
TEST_F(DNSLibTest, TestSerializeHeader)
{
llarp::dns::MessageHeader hdr, other;
hdr.id = 0x1234;
hdr.fields = (1 << 15);
hdr.qd_count = 1;
hdr.an_count = 1;
hdr.ns_count = 0;
hdr.ar_count = 0;
ASSERT_TRUE(hdr.Encode(&buf));
ASSERT_TRUE((buf.cur - buf.base) == llarp::dns::MessageHeader::Size);
Rewind();
ASSERT_TRUE(other.Decode(&buf));
ASSERT_TRUE(hdr == other);
ASSERT_TRUE(other.id == 0x1234);
ASSERT_TRUE(other.fields == (1 << 15));
};
TEST_F(DNSLibTest, TestSerializeName)
{
const llarp::dns::Name_t name = "whatever.tld";
const llarp::dns::Name_t expected = "whatever.tld.";
llarp::dns::Name_t other;
Rewind();
ASSERT_TRUE(llarp::dns::EncodeName(&buf, name));
Rewind();
ASSERT_EQ(buf.base[0], 8);
ASSERT_EQ(buf.base[1], 'w');
ASSERT_EQ(buf.base[2], 'h');
ASSERT_EQ(buf.base[3], 'a');
ASSERT_EQ(buf.base[4], 't');
ASSERT_EQ(buf.base[5], 'e');
ASSERT_EQ(buf.base[6], 'v');
ASSERT_EQ(buf.base[7], 'e');
ASSERT_EQ(buf.base[8], 'r');
ASSERT_EQ(buf.base[9], 3);
ASSERT_EQ(buf.base[10], 't');
ASSERT_EQ(buf.base[11], 'l');
ASSERT_EQ(buf.base[12], 'd');
ASSERT_EQ(buf.base[13], 0);
ASSERT_TRUE(llarp::dns::DecodeName(&buf, other));
ASSERT_EQ(expected, other);
};
TEST_F(DNSLibTest, TestSerializeQuestion)
{
const std::string name = "whatever.tld";
const std::string expected_name = name + ".";
llarp::dns::Question q, other;
q.qname = name;
q.qclass = 1;
q.qtype = 1;
ASSERT_TRUE(q.Encode(&buf));
Rewind();
ASSERT_TRUE(other.Decode(&buf));
ASSERT_EQ(other.qname, expected_name);
ASSERT_EQ(q.qclass, other.qclass);
ASSERT_EQ(q.qtype, other.qtype);
};
TEST_F(DNSLibTest, TestSerializeMessage)
{
llarp::dns::Question expected_question;
expected_question.qname = "whatever.tld.";
expected_question.qclass = 1;
expected_question.qtype = 1;
llarp::dns::MessageHeader hdr, otherHdr;
hdr.id = 0xfeed;
hdr.fields = (1 << 15);
hdr.qd_count = 1;
hdr.an_count = 0;
hdr.ns_count = 0;
hdr.ar_count = 0;
llarp::dns::Message m(hdr);
m.hdr_id = 0x1234;
m.hdr_fields = (1 << 15);
auto& q = m.questions[0];
q.qname = "whatever.tld";
q.qclass = 1;
q.qtype = 1;
m.AddINReply({1});
ASSERT_EQ(m.questions.size(), 1U);
ASSERT_EQ(m.answers.size(), 1U);
ASSERT_TRUE(m.Encode(&buf));
Rewind();
ASSERT_TRUE(otherHdr.Decode(&buf));
llarp::dns::Message other(otherHdr);
ASSERT_TRUE(buf.cur - buf.base == llarp::dns::MessageHeader::Size);
ASSERT_TRUE(other.Decode(&buf));
ASSERT_EQ(other.questions.size(), 1U);
ASSERT_EQ(expected_question.qname, other.questions[0].qname);
ASSERT_EQ(expected_question.qclass, other.questions[0].qclass);
ASSERT_EQ(expected_question.qtype, other.questions[0].qtype);
ASSERT_TRUE(expected_question == other.questions[0]);
ASSERT_EQ(other.answers.size(), 1U);
ASSERT_EQ(other.answers[0].rData.size(), 4U);
};
TEST_F(DNSLibTest, TestEncodeDecode_RData)
{
static constexpr size_t rdatasize = 32;
llarp::dns::RR_RData_t rdata(rdatasize);
std::fill(rdata.begin(), rdata.end(), 'a');
llarp::dns::RR_RData_t other_rdata;
ASSERT_TRUE(llarp::dns::EncodeRData(&buf, rdata));
ASSERT_TRUE(buf.cur - buf.base == rdatasize + sizeof(uint16_t));
Rewind();
ASSERT_TRUE(llarp::dns::DecodeRData(&buf, other_rdata));
ASSERT_TRUE(rdata == other_rdata);
};