lokinet/test/dht/test_llarp_dht_serviceaddresslookup.cpp

223 lines
5.6 KiB
C++

#include <dht/serviceaddresslookup.hpp>
#include <crypto/mock_crypto.hpp>
#include <dht/mock_context.hpp>
#include <dht/messages/gotintro.hpp>
#include <service/intro_set.hpp>
#include <test_util.hpp>
#include <gtest/gtest.h>
#include <gmock/gmock.h>
using namespace llarp;
using namespace ::testing;
using test::makeBuf;
struct MockIntroSetHandler
{
MOCK_METHOD1(call, void(const std::vector< service::IntroSet > &));
};
static constexpr uint64_t EXPIRY = 1548503831ull;
struct TestDhtServiceAddressLookup : public ::testing::Test
{
test::MockCrypto crypto;
MockIntroSetHandler introsetHandler;
dht::Key_t ourKey;
dht::Key_t txKey;
uint64_t txId;
dht::TXOwner txOwner;
service::Address address;
test::MockContext context;
uint64_t r;
std::unique_ptr< dht::ServiceAddressLookup > serviceAddressLookup;
TestDhtServiceAddressLookup()
: ourKey(makeBuf< dht::Key_t >(0xFF))
, txKey(makeBuf< dht::Key_t >(0x01))
, txId(2)
, txOwner(txKey, txId)
, address(makeBuf< service::Address >(0x03))
, r(4)
{
EXPECT_CALL(context, OurKey()).WillOnce(ReturnRef(ourKey));
serviceAddressLookup = std::make_unique< dht::ServiceAddressLookup >(
txOwner, address, &context, r,
std::bind(&MockIntroSetHandler::call, &introsetHandler,
std::placeholders::_1));
}
};
TEST_F(TestDhtServiceAddressLookup, validate)
{
// Concerns
// - introset fails to verify
// - introset topic is not the target
// - happy path
{
service::IntroSet introset;
EXPECT_CALL(context, Crypto()).WillOnce(Return(&crypto));
EXPECT_CALL(context, Now()).WillOnce(Return(EXPIRY));
EXPECT_CALL(crypto, verify(_, _, _)).WillOnce(Return(false));
ASSERT_FALSE(serviceAddressLookup->Validate(introset));
}
{
service::IntroSet introset;
// Fiddle with the introset so we pass the Verify call
introset.I.emplace_back();
introset.I.front().expiresAt =
EXPIRY + service::MAX_INTROSET_TIME_DELTA + 1;
// Set expectations
EXPECT_CALL(context, Crypto()).WillOnce(Return(&crypto));
EXPECT_CALL(context, Now()).WillOnce(Return(EXPIRY));
EXPECT_CALL(crypto, verify(_, _, _)).WillOnce(Return(true));
ASSERT_FALSE(serviceAddressLookup->Validate(introset));
}
{
service::IntroSet introset;
// Set the current address of the lookup to be equal to the default address.
// This is easier than manipulating the ServiceInfo address.
serviceAddressLookup->target.Zero();
// Fiddle with the introset so we pass the Verify call
introset.I.emplace_back();
introset.I.front().expiresAt =
EXPIRY + service::MAX_INTROSET_TIME_DELTA + 1;
// Set expectations
EXPECT_CALL(context, Crypto()).WillOnce(Return(&crypto));
EXPECT_CALL(context, Now()).WillOnce(Return(EXPIRY));
EXPECT_CALL(crypto, verify(_, _, _)).WillOnce(Return(true));
ASSERT_TRUE(serviceAddressLookup->Validate(introset));
}
}
TEST_F(TestDhtServiceAddressLookup, start)
{
// Verify input arguments are passed correctly.
// The actual logic is inside the `dht::AbstractContext` implementation.
// clang-format off
EXPECT_CALL(context, DHTSendTo(
Eq(txKey.as_array()),
WhenDynamicCastTo< dht::FindIntroMessage* >(NotNull()),
true)
).Times(1);
// clang-format off
ASSERT_NO_THROW(serviceAddressLookup->Start(txOwner));
}
TEST_F(TestDhtServiceAddressLookup, get_next_peer)
{
// Concerns
// - Nodes returns nullptr
// - Happy path
dht::Key_t key = makeBuf< dht::Key_t >(0x02);
std::set< dht::Key_t > exclude;
{
EXPECT_CALL(context, Nodes()).WillOnce(ReturnNull());
ASSERT_FALSE(serviceAddressLookup->GetNextPeer(key, exclude));
}
{
uint64_t randVal = 0;
dht::Bucket< dht::RCNode > nodes(ourKey, [&]() { return randVal++; });
nodes.nodes.emplace(makeBuf< dht::Key_t >(0x03), dht::RCNode());
EXPECT_CALL(context, Nodes()).WillOnce(Return(&nodes));
ASSERT_TRUE(serviceAddressLookup->GetNextPeer(key, exclude));
}
}
TEST_F(TestDhtServiceAddressLookup, do_next)
{
// Concerns:
// - R != 0
// - R = 0
const dht::Key_t key = makeBuf< dht::Key_t >(0x02);
{
// R != 0
EXPECT_CALL(context, LookupIntroSetRecursive(address, txKey, txId, key, r - 1, _));
ASSERT_NO_THROW(serviceAddressLookup->DoNextRequest(key));
}
{
// R = 0
serviceAddressLookup->R = 0;
EXPECT_CALL(context, LookupIntroSetIterative(address, txKey, txId, key, _));
ASSERT_NO_THROW(serviceAddressLookup->DoNextRequest(key));
}
}
TEST_F(TestDhtServiceAddressLookup, send_reply)
{
// Concerns
// - handle result is set, is called
// - handle result is not set
{
serviceAddressLookup->valuesFound.emplace_back();
EXPECT_CALL(introsetHandler, call(SizeIs(1)));
// clang-format off
EXPECT_CALL(
context,
DHTSendTo(
Eq(txKey.as_array()),
WhenDynamicCastTo<dht::GotIntroMessage *>(
AllOf(
NotNull(),
Field(&dht::GotIntroMessage::I, SizeIs(1))
)
),
true
)
);
// clang-format on
ASSERT_NO_THROW(serviceAddressLookup->SendReply());
}
{
serviceAddressLookup->valuesFound.clear();
serviceAddressLookup->valuesFound.emplace_back();
serviceAddressLookup->handleResult =
decltype(serviceAddressLookup->handleResult)();
// clang-format off
EXPECT_CALL(
context,
DHTSendTo(
Eq(txKey.as_array()),
WhenDynamicCastTo<dht::GotIntroMessage *>(
AllOf(
NotNull(),
Field(&dht::GotIntroMessage::I, SizeIs(1))
)
),
true
)
);
// clang-format on
ASSERT_NO_THROW(serviceAddressLookup->SendReply());
}
}