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/*
* (C) 2014,2015 Jack Lloyd
* 2016 Matthias Gierlings
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#include "tests.h"
#include <vector>
#include <memory>
#include <thread>
#if defined(BOTAN_HAS_TLS)
#include <botan/tls_server.h>
#include <botan/tls_client.h>
#include <botan/tls_handshake_msg.h>
#include <botan/pkcs10.h>
#include <botan/x509self.h>
#include <botan/rsa.h>
#include <botan/x509_ca.h>
#include <botan/auto_rng.h>
#include <botan/hex.h>
#endif
namespace Botan_Tests {
namespace {
#if defined(BOTAN_HAS_TLS)
class Credentials_Manager_Test : public Botan::Credentials_Manager
{
public:
Credentials_Manager_Test(const Botan::X509_Certificate& server_cert,
const Botan::X509_Certificate& ca_cert,
Botan::Private_Key* server_key) :
m_server_cert(server_cert),
m_ca_cert(ca_cert),
m_key(server_key)
{
std::unique_ptr<Botan::Certificate_Store> store(new Botan::Certificate_Store_In_Memory(m_ca_cert));
m_stores.push_back(std::move(store));
}
std::vector<Botan::Certificate_Store*>
trusted_certificate_authorities(const std::string&,
const std::string&) override
{
std::vector<Botan::Certificate_Store*> v;
for(auto&& store : m_stores)
v.push_back(store.get());
return v;
}
std::vector<Botan::X509_Certificate> cert_chain(
const std::vector<std::string>& cert_key_types,
const std::string& type,
const std::string&) override
{
std::vector<Botan::X509_Certificate> chain;
if(type == "tls-server")
{
bool have_match = false;
for(size_t i = 0; i != cert_key_types.size(); ++i)
if(cert_key_types[i] == m_key->algo_name())
have_match = true;
if(have_match)
{
chain.push_back(m_server_cert);
chain.push_back(m_ca_cert);
}
}
return chain;
}
void verify_certificate_chain(
const std::string& type,
const std::string& purported_hostname,
const std::vector<Botan::X509_Certificate>& cert_chain) override
{
Credentials_Manager::verify_certificate_chain(type,
purported_hostname,
cert_chain);
}
Botan::Private_Key* private_key_for(const Botan::X509_Certificate&,
const std::string&,
const std::string&) override
{
return m_key.get();
}
Botan::SymmetricKey psk(const std::string& type,
const std::string& context,
const std::string&) override
{
if(type == "tls-server" && context == "session-ticket")
return Botan::SymmetricKey("AABBCCDDEEFF012345678012345678");
if(context == "server.example.com" && type == "tls-client")
return Botan::SymmetricKey("20B602D1475F2DF888FCB60D2AE03AFD");
if(context == "server.example.com" && type == "tls-server")
return Botan::SymmetricKey("20B602D1475F2DF888FCB60D2AE03AFD");
throw Test_Error("No PSK set for " + type + "/" + context);
}
public:
Botan::X509_Certificate m_server_cert, m_ca_cert;
std::unique_ptr<Botan::Private_Key> m_key;
std::vector<std::unique_ptr<Botan::Certificate_Store>> m_stores;
};
Botan::Credentials_Manager* create_creds()
{
std::unique_ptr<Botan::Private_Key> ca_key(new Botan::RSA_PrivateKey(Test::rng(), 1024));
Botan::X509_Cert_Options ca_opts;
ca_opts.common_name = "Test CA";
ca_opts.country = "US";
ca_opts.CA_key(1);
Botan::X509_Certificate ca_cert =
Botan::X509::create_self_signed_cert(ca_opts,
*ca_key,
"SHA-256",
Test::rng());
Botan::Private_Key* server_key = new Botan::RSA_PrivateKey(Test::rng(), 1024);
Botan::X509_Cert_Options server_opts;
server_opts.common_name = "server.example.com";
server_opts.country = "US";
Botan::PKCS10_Request req = Botan::X509::create_cert_req(server_opts,
*server_key,
"SHA-256",
Test::rng());
Botan::X509_CA ca(ca_cert, *ca_key, "SHA-256");
auto now = std::chrono::system_clock::now();
Botan::X509_Time start_time(now);
typedef std::chrono::duration<int, std::ratio<31556926>> years;
Botan::X509_Time end_time(now + years(1));
Botan::X509_Certificate server_cert = ca.sign_request(req,
Test::rng(),
start_time,
end_time);
return new Credentials_Manager_Test(server_cert, ca_cert, server_key);
}
std::function<void (const byte[], size_t)> queue_inserter(std::vector<byte>& q)
{
return [&](const byte buf[], size_t sz) { q.insert(q.end(), buf, buf + sz); };
}
void print_alert(Botan::TLS::Alert)
{
}
void alert_cb_with_data(Botan::TLS::Alert, const byte[], size_t)
{
}
Test::Result test_tls_handshake(Botan::TLS::Protocol_Version offer_version,
Botan::Credentials_Manager& creds,
Botan::TLS::Policy& policy)
{
Botan::RandomNumberGenerator& rng = Test::rng();
Botan::TLS::Session_Manager_In_Memory server_sessions(rng);
Botan::TLS::Session_Manager_In_Memory client_sessions(rng);
Test::Result result(offer_version.to_string());
result.start_timer();
for(size_t r = 1; r <= 4; ++r)
{
bool handshake_done = false;
result.test_note("Test round " + std::to_string(r));
auto handshake_complete = [&](const Botan::TLS::Session& session) -> bool {
handshake_done = true;
result.test_note("Session established " + session.version().to_string() + " " +
session.ciphersuite().to_string() + " " +
Botan::hex_encode(session.session_id()));
if(session.version() != offer_version)
{
result.test_failure("Offered " + offer_version.to_string() +
" got " + session.version().to_string());
}
if(r <= 2)
return true;
return false;
};
auto next_protocol_chooser = [&](std::vector<std::string> protos) {
if(r <= 2)
{
result.test_eq("protocol count", protos.size(), 2);
result.test_eq("protocol[0]", protos[0], "test/1");
result.test_eq("protocol[1]", protos[1], "test/2");
}
return "test/3";
};
const std::vector<std::string> protocols_offered = { "test/1", "test/2" };
try
{
std::vector<byte> c2s_traffic, s2c_traffic, client_recv, server_recv, client_sent, server_sent;
std::unique_ptr<Botan::TLS::Callbacks> server_cb(new Botan::TLS::Compat_Callbacks(
queue_inserter(s2c_traffic),
queue_inserter(server_recv),
std::function<void (Botan::TLS::Alert, const byte[], size_t)>(alert_cb_with_data),
handshake_complete,
nullptr,
next_protocol_chooser));
// TLS::Server object constructed by new constructor using virtual callback interface.
std::unique_ptr<Botan::TLS::Server> server(
new Botan::TLS::Server(*server_cb,
server_sessions,
creds,
policy,
rng,
false));
std::unique_ptr<Botan::TLS::Callbacks> client_cb(new Botan::TLS::Compat_Callbacks(
queue_inserter(c2s_traffic),
queue_inserter(client_recv),
std::function<void (Botan::TLS::Alert, const byte[], size_t)>(alert_cb_with_data),
handshake_complete));
// TLS::Client object constructed by new constructor using virtual callback interface.
std::unique_ptr<Botan::TLS::Client> client(
new Botan::TLS::Client(*client_cb,
client_sessions,
creds,
policy,
rng,
Botan::TLS::Server_Information("server.example.com"),
offer_version,
protocols_offered));
size_t rounds = 0;
// Test TLS using both new and legacy constructors.
for(size_t ctor_sel = 0; ctor_sel < 2; ctor_sel++)
{
if(ctor_sel == 1)
{
c2s_traffic.clear();
s2c_traffic.clear();
server_recv.clear();
client_recv.clear();
client_sent.clear();
server_sent.clear();
// TLS::Server object constructed by legacy constructor.
server.reset(
new Botan::TLS::Server(queue_inserter(s2c_traffic),
queue_inserter(server_recv),
alert_cb_with_data,
handshake_complete,
server_sessions,
creds,
policy,
rng,
next_protocol_chooser,
false));
// TLS::Client object constructed by legacy constructor.
client.reset(
new Botan::TLS::Client(queue_inserter(c2s_traffic),
queue_inserter(client_recv),
alert_cb_with_data,
handshake_complete,
client_sessions,
creds,
policy,
rng,
Botan::TLS::Server_Information("server.example.com"),
offer_version,
protocols_offered));
}
while(true)
{
++rounds;
if(rounds > 25)
{
if(r <= 2)
result.test_failure("Still here after many rounds, deadlock?");
break;
}
if(handshake_done && (client->is_closed() || server->is_closed()))
break;
if(client->is_active() && client_sent.empty())
{
// Choose a len between 1 and 511
const size_t c_len = 1 + rng.next_byte() + rng.next_byte();
client_sent = unlock(rng.random_vec(c_len));
// TODO send in several records
client->send(client_sent);
}
if(server->is_active() && server_sent.empty())
{
result.test_eq("server->protocol", server->next_protocol(), "test/3");
const size_t s_len = 1 + rng.next_byte() + rng.next_byte();
server_sent = unlock(rng.random_vec(s_len));
server->send(server_sent);
}
const bool corrupt_client_data = (r == 3);
const bool corrupt_server_data = (r == 4);
if(c2s_traffic.size() > 0)
{
/*
* Use this as a temp value to hold the queues as otherwise they
* might end up appending more in response to messages during the
* handshake.
*/
std::vector<byte> input;
std::swap(c2s_traffic, input);
if(corrupt_server_data)
{
input = Test::mutate_vec(input, true);
size_t needed = server->received_data(input.data(), input.size());
size_t total_consumed = needed;
while(needed > 0 &&
result.test_lt("Never requesting more than max protocol len", needed, 18*1024) &&
result.test_lt("Total requested is readonable", total_consumed, 128*1024))
{
input.resize(needed);
Test::rng().randomize(input.data(), input.size());
needed = server->received_data(input.data(), input.size());
total_consumed += needed;
}
}
else
{
size_t needed = server->received_data(input.data(), input.size());
result.test_eq("full packet received", needed, 0);
}
continue;
}
if(s2c_traffic.size() > 0)
{
std::vector<byte> input;
std::swap(s2c_traffic, input);
if(corrupt_client_data)
{
input = Test::mutate_vec(input, true);
size_t needed = client->received_data(input.data(), input.size());
size_t total_consumed = 0;
while(needed > 0 && result.test_lt("Never requesting more than max protocol len", needed, 18*1024))
{
input.resize(needed);
Test::rng().randomize(input.data(), input.size());
needed = client->received_data(input.data(), input.size());
total_consumed += needed;
}
}
else
{
size_t needed = client->received_data(input.data(), input.size());
result.test_eq("full packet received", needed, 0);
}
continue;
}
if(client_recv.size())
{
result.test_eq("client recv", client_recv, server_sent);
}
if(server_recv.size())
{
result.test_eq("server->recv", server_recv, client_sent);
}
if(r > 2)
{
if(client_recv.size() && server_recv.size())
{
result.test_failure("Negotiated in the face of data corruption " + std::to_string(r));
}
}
if(client->is_closed() && server->is_closed())
break;
if(server_recv.size() && client_recv.size())
{
Botan::SymmetricKey client_key = client->key_material_export("label", "context", 32);
Botan::SymmetricKey server_key = server->key_material_export("label", "context", 32);
result.test_eq("TLS key material export", client_key.bits_of(), server_key.bits_of());
if(r % 2 == 0)
client->close();
else
server->close();
}
}
}
}
catch(std::exception& e)
{
if(r > 2)
{
result.test_note("Corruption caused exception");
}
else
{
result.test_failure("TLS client", e.what());
}
}
}
result.end_timer();
return result;
}
Test::Result test_dtls_handshake(Botan::TLS::Protocol_Version offer_version,
Botan::Credentials_Manager& creds,
Botan::TLS::Policy& policy)
{
BOTAN_ASSERT(offer_version.is_datagram_protocol(), "Test is for datagram version");
Botan::RandomNumberGenerator& rng = Test::rng();
Botan::TLS::Session_Manager_In_Memory server_sessions(rng);
Botan::TLS::Session_Manager_In_Memory client_sessions(rng);
Test::Result result(offer_version.to_string());
result.start_timer();
for(size_t r = 1; r <= 2; ++r)
{
bool handshake_done = false;
auto handshake_complete = [&](const Botan::TLS::Session& session) -> bool {
handshake_done = true;
if(session.version() != offer_version)
{
result.test_failure("Offered " + offer_version.to_string() +
" got " + session.version().to_string());
}
return true;
};
auto next_protocol_chooser = [&](std::vector<std::string> protos) {
if(r <= 2)
{
result.test_eq("protocol count", protos.size(), 2);
result.test_eq("protocol[0]", protos[0], "test/1");
result.test_eq("protocol[1]", protos[1], "test/2");
}
return "test/3";
};
const std::vector<std::string> protocols_offered = { "test/1", "test/2" };
try
{
std::vector<byte> c2s_traffic, s2c_traffic, client_recv, server_recv, client_sent, server_sent;
std::unique_ptr<Botan::TLS::Callbacks> server_cb(new Botan::TLS::Compat_Callbacks(
queue_inserter(s2c_traffic),
queue_inserter(server_recv),
std::function<void (Botan::TLS::Alert)>(print_alert),
handshake_complete,
nullptr,
next_protocol_chooser));
std::unique_ptr<Botan::TLS::Callbacks> client_cb(new Botan::TLS::Compat_Callbacks(
queue_inserter(c2s_traffic),
queue_inserter(client_recv),
std::function<void (Botan::TLS::Alert)>(print_alert),
handshake_complete));
// TLS::Server object constructed by new constructor using virtual callback interface.
std::unique_ptr<Botan::TLS::Server> server(
new Botan::TLS::Server(*server_cb,
server_sessions,
creds,
policy,
rng,
true));
// TLS::Client object constructed by new constructor using virtual callback interface.
std::unique_ptr<Botan::TLS::Client> client(
new Botan::TLS::Client(*client_cb,
client_sessions,
creds,
policy,
rng,
Botan::TLS::Server_Information("server.example.com"),
offer_version,
protocols_offered));
size_t rounds = 0;
// Test DTLS using both new and legacy constructors.
for(size_t ctor_sel = 0; ctor_sel < 2; ctor_sel++)
{
if(ctor_sel == 1)
{
c2s_traffic.clear();
s2c_traffic.clear();
server_recv.clear();
client_recv.clear();
client_sent.clear();
server_sent.clear();
// TLS::Server object constructed by legacy constructor.
server.reset(
new Botan::TLS::Server(queue_inserter(s2c_traffic),
queue_inserter(server_recv),
alert_cb_with_data,
handshake_complete,
server_sessions,
creds,
policy,
rng,
next_protocol_chooser,
true));
// TLS::Client object constructed by legacy constructor.
client.reset(
new Botan::TLS::Client(queue_inserter(c2s_traffic),
queue_inserter(client_recv),
alert_cb_with_data,
handshake_complete,
client_sessions,
creds,
policy,
rng,
Botan::TLS::Server_Information("server.example.com"),
offer_version,
protocols_offered));
}
while(true)
{
// TODO: client and server should be in different threads
std::this_thread::sleep_for(std::chrono::milliseconds(rng.next_byte() % 2));
++rounds;
if(rounds > 100)
{
result.test_failure("Still here after many rounds");
break;
}
if(handshake_done && (client->is_closed() || server->is_closed()))
break;
if(client->is_active() && client_sent.empty())
{
// Choose a len between 1 and 511 and send random chunks:
const size_t c_len = 1 + rng.next_byte() + rng.next_byte();
client_sent = unlock(rng.random_vec(c_len));
// TODO send multiple parts
client->send(client_sent);
}
if(server->is_active() && server_sent.empty())
{
result.test_eq("server ALPN", server->next_protocol(), "test/3");
const size_t s_len = 1 + rng.next_byte() + rng.next_byte();
server_sent = unlock(rng.random_vec(s_len));
server->send(server_sent);
}
const bool corrupt_client_data = (r == 3 && rng.next_byte() % 3 <= 1 && rounds < 10);
const bool corrupt_server_data = (r == 4 && rng.next_byte() % 3 <= 1 && rounds < 10);
if(c2s_traffic.size() > 0)
{
/*
* Use this as a temp value to hold the queues as otherwise they
* might end up appending more in response to messages during the
* handshake.
*/
std::vector<byte> input;
std::swap(c2s_traffic, input);
if(corrupt_server_data)
{
try
{
input = Test::mutate_vec(input, true);
size_t needed = server->received_data(input.data(), input.size());
if(needed > 0 && result.test_lt("Never requesting more than max protocol len", needed, 18*1024))
{
input.resize(needed);
Test::rng().randomize(input.data(), input.size());
client->received_data(input.data(), input.size());
}
}
catch(std::exception&)
{
result.test_note("corruption caused server exception");
}
}
else
{
try
{
size_t needed = server->received_data(input.data(), input.size());
result.test_eq("full packet received", needed, 0);
}
catch(std::exception& e)
{
result.test_failure("server error", e.what());
}
}
continue;
}
if(s2c_traffic.size() > 0)
{
std::vector<byte> input;
std::swap(s2c_traffic, input);
if(corrupt_client_data)
{
try
{
input = Test::mutate_vec(input, true);
size_t needed = client->received_data(input.data(), input.size());
if(needed > 0 && result.test_lt("Never requesting more than max protocol len", needed, 18*1024))
{
input.resize(needed);
Test::rng().randomize(input.data(), input.size());
client->received_data(input.data(), input.size());
}
}
catch(std::exception&)
{
result.test_note("corruption caused client exception");
}
}
else
{
try
{
size_t needed = client->received_data(input.data(), input.size());
result.test_eq("full packet received", needed, 0);
}
catch(std::exception& e)
{
result.test_failure("client error", e.what());
}
}
continue;
}
// If we corrupted a DTLS application message, resend it:
if(client->is_active() && corrupt_client_data && server_recv.empty())
client->send(client_sent);
if(server->is_active() && corrupt_server_data && client_recv.empty())
server->send(server_sent);
if(client_recv.size())
{
result.test_eq("client recv", client_recv, server_sent);
}
if(server_recv.size())
{
result.test_eq("server recv", server_recv, client_sent);
}
if(client->is_closed() && server->is_closed())
break;
if(server_recv.size() && client_recv.size())
{
Botan::SymmetricKey client_key = client->key_material_export("label", "context", 32);
Botan::SymmetricKey server_key = server->key_material_export("label", "context", 32);
result.test_eq("key material export", client_key.bits_of(), server_key.bits_of());
if(r % 2 == 0)
client->close();
else
server->close();
}
}
}
}
catch(std::exception& e)
{
if(r > 2)
{
result.test_note("Corruption caused failure");
}
else
{
result.test_failure("DTLS handshake", e.what());
}
}
}
result.end_timer();
return result;
}
class Test_Policy : public Botan::TLS::Text_Policy
{
public:
Test_Policy() : Text_Policy("") {}
bool acceptable_protocol_version(Botan::TLS::Protocol_Version) const override { return true; }
bool send_fallback_scsv(Botan::TLS::Protocol_Version) const override { return false; }
size_t dtls_initial_timeout() const override { return 1; }
size_t dtls_maximum_timeout() const override { return 8; }
};
class TLS_Unit_Tests : public Test
{
public:
std::vector<Test::Result> run() override
{
std::unique_ptr<Botan::Credentials_Manager> basic_creds(create_creds());
std::vector<Test::Result> results;
Test_Policy policy;
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V10, *basic_creds, policy));
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V11, *basic_creds, policy));
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V12, *basic_creds, policy));
results.push_back(test_dtls_handshake(Botan::TLS::Protocol_Version::DTLS_V10, *basic_creds, policy));
results.push_back(test_dtls_handshake(Botan::TLS::Protocol_Version::DTLS_V12, *basic_creds, policy));
policy.set("key_exchange_methods", "RSA");
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V10, *basic_creds, policy));
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V11, *basic_creds, policy));
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V12, *basic_creds, policy));
results.push_back(test_dtls_handshake(Botan::TLS::Protocol_Version::DTLS_V10, *basic_creds, policy));
results.push_back(test_dtls_handshake(Botan::TLS::Protocol_Version::DTLS_V12, *basic_creds, policy));
policy.set("key_exchange_methods", "DH");
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V10, *basic_creds, policy));
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V11, *basic_creds, policy));
policy.set("key_exchange_methods", "ECDH");
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V12, *basic_creds, policy));
results.push_back(test_dtls_handshake(Botan::TLS::Protocol_Version::DTLS_V10, *basic_creds, policy));
results.push_back(test_dtls_handshake(Botan::TLS::Protocol_Version::DTLS_V12, *basic_creds, policy));
policy.set("ciphers", "AES-128");
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V10, *basic_creds, policy));
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V11, *basic_creds, policy));
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V12, *basic_creds, policy));
results.push_back(test_dtls_handshake(Botan::TLS::Protocol_Version::DTLS_V10, *basic_creds, policy));
results.push_back(test_dtls_handshake(Botan::TLS::Protocol_Version::DTLS_V12, *basic_creds, policy));
#if defined(BOTAN_HAS_AEAD_OCB)
policy.set("ciphers", "AES-128/OCB(12)");
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V12, *basic_creds, policy));
results.push_back(test_dtls_handshake(Botan::TLS::Protocol_Version::DTLS_V12, *basic_creds, policy));
#endif
#if defined(BOTAN_HAS_AEAD_CHACHA20_POLY1305)
policy.set("ciphers", "ChaCha20Poly1305");
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V12, *basic_creds, policy));
results.push_back(test_dtls_handshake(Botan::TLS::Protocol_Version::DTLS_V12, *basic_creds, policy));
#endif
policy.set("ciphers", "AES-128/GCM");
policy.set("key_exchange_methods", "PSK");
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V12, *basic_creds, policy));
results.push_back(test_dtls_handshake(Botan::TLS::Protocol_Version::DTLS_V12, *basic_creds, policy));
// For whatever reason no (EC)DHE_PSK GCM ciphersuites are defined
policy.set("ciphers", "AES-128");
policy.set("key_exchange_methods", "ECDHE_PSK");
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V12, *basic_creds, policy));
results.push_back(test_dtls_handshake(Botan::TLS::Protocol_Version::DTLS_V12, *basic_creds, policy));
policy.set("key_exchange_methods", "DHE_PSK");
results.push_back(test_tls_handshake(Botan::TLS::Protocol_Version::TLS_V12, *basic_creds, policy));
results.push_back(test_dtls_handshake(Botan::TLS::Protocol_Version::DTLS_V12, *basic_creds, policy));
return results;
}
};
BOTAN_REGISTER_TEST("tls", TLS_Unit_Tests);
#endif
}
}
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