github
/
bitcoin
mirror of https://github.com/bitcoin/bitcoin
1
Fork 0
Code Releases Activity
bitcoin/src/test/i2p_tests.cpp

180 lines
8.3 KiB
C++
Raw Permalink Blame History

// Copyright (c) 2021-2022 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include <common/args.h>
#include <i2p.h>
#include <logging.h>
#include <netaddress.h>
#include <netbase.h>
#include <test/util/logging.h>
#include <test/util/net.h>
#include <test/util/setup_common.h>
#include <util/readwritefile.h>
#include <util/threadinterrupt.h>
#include <boost/test/unit_test.hpp>
#include <memory>
#include <string>
/// Save the log level and the value of CreateSock and restore them when the test ends.
class EnvTestingSetup : public BasicTestingSetup
{
public:
explicit EnvTestingSetup(const ChainType chainType = ChainType::MAIN,
const std::vector<const char*>& extra_args = {})
: BasicTestingSetup{chainType, extra_args},
m_prev_log_level{LogInstance().LogLevel()},
m_create_sock_orig{CreateSock}
{
LogInstance().SetLogLevel(BCLog::Level::Trace);
}
~EnvTestingSetup()
{
CreateSock = m_create_sock_orig;
LogInstance().SetLogLevel(m_prev_log_level);
}
private:
const BCLog::Level m_prev_log_level;
const std::function<std::unique_ptr<Sock>(const sa_family_t&)> m_create_sock_orig;
};
BOOST_FIXTURE_TEST_SUITE(i2p_tests, EnvTestingSetup)
BOOST_AUTO_TEST_CASE(unlimited_recv)
{
// Mock CreateSock() to create MockSock.
CreateSock = [](const sa_family_t&) {
return std::make_unique<StaticContentsSock>(std::string(i2p::sam::MAX_MSG_SIZE + 1, 'a'));
};
CThreadInterrupt interrupt;
const std::optional<CService> addr{Lookup("127.0.0.1", 9000, false)};
const Proxy sam_proxy(addr.value(), false);
i2p::sam::Session session(gArgs.GetDataDirNet() / "test_i2p_private_key", sam_proxy, &interrupt);
{
ASSERT_DEBUG_LOG("Creating persistent SAM session");
ASSERT_DEBUG_LOG("too many bytes without a terminator");
i2p::Connection conn;
bool proxy_error;
BOOST_REQUIRE(!session.Connect(CService{}, conn, proxy_error));
}
}
BOOST_AUTO_TEST_CASE(listen_ok_accept_fail)
{
size_t num_sockets{0};
CreateSock = [&num_sockets](const sa_family_t&) {
// clang-format off
++num_sockets;
// First socket is the control socket for creating the session.
if (num_sockets == 1) {
return std::make_unique<StaticContentsSock>(
// reply to HELLO
"HELLO REPLY RESULT=OK VERSION=3.1\n"
// reply to DEST GENERATE
"DEST REPLY PUB=WnGOLXRBqHQhdVjFlWqRxJwz9hxx~2~wGc2Vplta1KhacY4tdEGodCF1WMWVapHEnDP2HHH~b~AZzZWmW1rUqFpxji10Qah0IXVYxZVqkcScM~Yccf9v8BnNlaZbWtSoWnGOLXRBqHQhdVjFlWqRxJwz9hxx~2~wGc2Vplta1KhacY4tdEGodCF1WMWVapHEnDP2HHH~b~AZzZWmW1rUqFpxji10Qah0IXVYxZVqkcScM~Yccf9v8BnNlaZbWtSoWnGOLXRBqHQhdVjFlWqRxJwz9hxx~2~wGc2Vplta1KhacY4tdEGodCF1WMWVapHEnDP2HHH~b~AZzZWmW1rUqFpxji10Qah0IXVYxZVqkcScM~Yccf9v8BnNlaZbWtSoWnGOLXRBqHQhdVjFlWqRxJwz9hxx~2~wGc2Vplta1KhacY4tdEGodCF1WMWVapHEnDP2HHH~b~AZzZWmW1rUqLE4SD-yjT48UNI7qiTUfIPiDitCoiTTz2cr4QGfw89rBQAEAAcAAA== PRIV=WnGOLXRBqHQhdVjFlWqRxJwz9hxx~2~wGc2Vplta1KhacY4tdEGodCF1WMWVapHEnDP2HHH~b~AZzZWmW1rUqFpxji10Qah0IXVYxZVqkcScM~Yccf9v8BnNlaZbWtSoWnGOLXRBqHQhdVjFlWqRxJwz9hxx~2~wGc2Vplta1KhacY4tdEGodCF1WMWVapHEnDP2HHH~b~AZzZWmW1rUqFpxji10Qah0IXVYxZVqkcScM~Yccf9v8BnNlaZbWtSoWnGOLXRBqHQhdVjFlWqRxJwz9hxx~2~wGc2Vplta1KhacY4tdEGodCF1WMWVapHEnDP2HHH~b~AZzZWmW1rUqFpxji10Qah0IXVYxZVqkcScM~Yccf9v8BnNlaZbWtSoWnGOLXRBqHQhdVjFlWqRxJwz9hxx~2~wGc2Vplta1KhacY4tdEGodCF1WMWVapHEnDP2HHH~b~AZzZWmW1rUqLE4SD-yjT48UNI7qiTUfIPiDitCoiTTz2cr4QGfw89rBQAEAAcAAOvuCIKTyv5f~1QgGq7XQl-IqBULTB5WzB3gw5yGPtd1p0AeoADrq1ccZggLPQ4ZLUsGK-HVw373rcTfvxrcuwenqVjiN4tbbYLWtP7xXGWj6fM6HyORhU63GphrjEePpMUHDHXd3o7pWGM-ieVVQSK~1MzF9P93pQWI3Do52EeNAayz4HbpPjNhVBzG1hUEFwznfPmUZBPuaOR4-uBm1NEWEuONlNOCctE4-U0Ukh94z-Qb55U5vXjR5G4apmBblr68t6Wm1TKlzpgFHzSqLryh3stWqrOKY1H0z9eZ2z1EkHFOpD5LyF6nf51e-lV7HLMl44TYzoEHK8RRVodtLcW9lacVdBpv~tOzlZERIiDziZODPETENZMz5oy9DQ7UUw==\n"
// reply to SESSION CREATE
"SESSION STATUS RESULT=OK\n"
// dummy to avoid reporting EOF on the socket
"a"
);
}
// Subsequent sockets are for recreating the session or for listening and accepting incoming connections.
if (num_sockets % 2 == 0) {
// Replies to Listen() and Accept()
return std::make_unique<StaticContentsSock>(
// reply to HELLO
"HELLO REPLY RESULT=OK VERSION=3.1\n"
// reply to STREAM ACCEPT
"STREAM STATUS RESULT=OK\n"
// continued reply to STREAM ACCEPT, violating the protocol described at
// https://geti2p.net/en/docs/api/samv3#Accept%20Response
// should be base64, something like
// "IchV608baDoXbqzQKSqFDmTXPVgoDbPAhZJvNRXXxi4hyFXrTxtoOhdurNApKoUOZNc9WCgNs8CFkm81FdfGLiHIVetPG2g6F26s0CkqhQ5k1z1YKA2zwIWSbzUV18YuIchV608baDoXbqzQKSqFDmTXPVgoDbPAhZJvNRXXxi4hyFXrTxtoOhdurNApKoUOZNc9WCgNs8CFkm81FdfGLiHIVetPG2g6F26s0CkqhQ5k1z1YKA2zwIWSbzUV18YuIchV608baDoXbqzQKSqFDmTXPVgoDbPAhZJvNRXXxi4hyFXrTxtoOhdurNApKoUOZNc9WCgNs8CFkm81FdfGLiHIVetPG2g6F26s0CkqhQ5k1z1YKA2zwIWSbzUV18YuIchV608baDoXbqzQKSqFDmTXPVgoDbPAhZJvNRXXxi4hyFXrTxtoOhdurNApKoUOZNc9WCgNs8CFkm81FdfGLlSreVaCuCS5sdb-8ToWULWP7kt~lRPDeUNxQMq3cRSBBQAEAAcAAA==\n"
"STREAM STATUS RESULT=I2P_ERROR MESSAGE=\"Session was closed\"\n"
);
} else {
// Another control socket, but without creating a destination (it is cached in the session).
return std::make_unique<StaticContentsSock>(
// reply to HELLO
"HELLO REPLY RESULT=OK VERSION=3.1\n"
// reply to SESSION CREATE
"SESSION STATUS RESULT=OK\n"
// dummy to avoid reporting EOF on the socket
"a"
);
}
// clang-format on
};
CThreadInterrupt interrupt;
const CService addr{in6_addr(IN6ADDR_LOOPBACK_INIT), /*port=*/7656};
const Proxy sam_proxy(addr, false);
i2p::sam::Session session(gArgs.GetDataDirNet() / "test_i2p_private_key",
sam_proxy,
&interrupt);
i2p::Connection conn;
for (size_t i = 0; i < 5; ++i) {
ASSERT_DEBUG_LOG("Creating persistent SAM session");
ASSERT_DEBUG_LOG("Persistent SAM session" /* ... created */);
ASSERT_DEBUG_LOG("Error accepting");
ASSERT_DEBUG_LOG("Destroying SAM session");
BOOST_REQUIRE(session.Listen(conn));
BOOST_REQUIRE(!session.Accept(conn));
}
}
BOOST_AUTO_TEST_CASE(damaged_private_key)
{
const auto CreateSockOrig = CreateSock;
CreateSock = [](const sa_family_t&) {
return std::make_unique<StaticContentsSock>("HELLO REPLY RESULT=OK VERSION=3.1\n"
"SESSION STATUS RESULT=OK DESTINATION=\n");
};
const auto i2p_private_key_file = m_args.GetDataDirNet() / "test_i2p_private_key_damaged";
for (const auto& [file_contents, expected_error] : std::vector<std::tuple<std::string, std::string>>{
{"", "The private key is too short (0 < 387)"},
{"abcd", "The private key is too short (4 < 387)"},
{std::string(386, '\0'), "The private key is too short (386 < 387)"},
{std::string(385, '\0') + '\0' + '\1',
"Certificate length (1) designates that the private key should be 388 bytes, but it is only "
"387 bytes"},
{std::string(385, '\0') + '\0' + '\5' + "abcd",
"Certificate length (5) designates that the private key should be 392 bytes, but it is only "
"391 bytes"}}) {
BOOST_REQUIRE(WriteBinaryFile(i2p_private_key_file, file_contents));
CThreadInterrupt interrupt;
const CService addr{in6_addr(IN6ADDR_LOOPBACK_INIT), /*port=*/7656};
const Proxy sam_proxy{addr, false};
i2p::sam::Session session(i2p_private_key_file, sam_proxy, &interrupt);
{
ASSERT_DEBUG_LOG("Creating persistent SAM session");
ASSERT_DEBUG_LOG(expected_error);
i2p::Connection conn;
bool proxy_error;
BOOST_CHECK(!session.Connect(CService{}, conn, proxy_error));
}
}
CreateSock = CreateSockOrig;
}
BOOST_AUTO_TEST_SUITE_END()
View Git Blame Copy Permalink