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/*
* (C) 2017 Jack Lloyd
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#include "test_runner.h"
#include "tests.h"
#include <botan/version.h>
#include <botan/rotate.h>
#include <botan/loadstor.h>
#include <botan/cpuid.h>
#if defined(BOTAN_HAS_THREAD_UTILS)
#include <botan/internal/thread_pool.h>
#endif
namespace Botan_Tests {
Test_Runner::Test_Runner(std::ostream& out) : m_output(out) {}
namespace {
/*
* This is a fast, simple, deterministic PRNG that's used for running
* the tests. It is not intended to be cryptographically secure.
*/
class Testsuite_RNG final : public Botan::RandomNumberGenerator
{
public:
std::string name() const override { return "Testsuite_RNG"; }
void clear() override
{
m_a = m_b = m_c = m_d = 0;
}
bool accepts_input() const override { return true; }
void add_entropy(const uint8_t data[], size_t len) override
{
for(size_t i = 0; i != len; ++i)
{
m_a ^= data[i];
m_b ^= i;
mix();
}
}
bool is_seeded() const override
{
return true;
}
void randomize(uint8_t out[], size_t len) override
{
for(size_t i = 0; i != len; ++i)
{
out[i] = static_cast<uint8_t>(m_a);
mix();
}
}
Testsuite_RNG(const std::vector<uint8_t>& seed, size_t test_counter = 0)
{
m_d = static_cast<uint32_t>(test_counter);
add_entropy(seed.data(), seed.size());
}
private:
void mix()
{
const size_t ROUNDS = 3;
for(size_t i = 0; i != ROUNDS; ++i)
{
m_a += static_cast<uint32_t>(i);
m_a = Botan::rotl<9>(m_a);
m_b ^= m_a;
m_d ^= m_c;
m_a += m_d;
m_c += m_b;
m_c = Botan::rotl<23>(m_c);
}
}
uint32_t m_a = 0, m_b = 0, m_c = 0, m_d = 0;
};
}
int Test_Runner::run(const Test_Options& opts)
{
std::vector<std::string> req = opts.requested_tests();
const std::set<std::string> to_skip = opts.skip_tests();
if(req.empty())
{
/*
If nothing was requested on the command line, run everything. First
run the "essentials" to smoke test, then everything else in
alphabetical order.
*/
std::vector<std::string> default_first = {
"block", "stream", "hash", "mac", "modes", "aead",
"kdf", "pbkdf", "hmac_drbg", "util"
};
for(auto s : default_first)
{
if(to_skip.count(s) == 0)
req.push_back(s);
}
std::set<std::string> all_others = Botan_Tests::Test::registered_tests();
if(opts.pkcs11_lib().empty())
{
// do not run pkcs11 tests by default unless pkcs11-lib set
for(std::set<std::string>::iterator iter = all_others.begin(); iter != all_others.end();)
{
if((*iter).find("pkcs11") != std::string::npos)
{
iter = all_others.erase(iter);
}
else
{
++iter;
}
}
}
for(auto f : req)
{
all_others.erase(f);
}
for(const std::string& f : to_skip)
{
all_others.erase(f);
}
req.insert(req.end(), all_others.begin(), all_others.end());
}
else if(req.size() == 1 && req.at(0) == "pkcs11")
{
req = {"pkcs11-manage", "pkcs11-module", "pkcs11-slot", "pkcs11-session", "pkcs11-object", "pkcs11-rsa",
"pkcs11-ecdsa", "pkcs11-ecdh", "pkcs11-rng", "pkcs11-x509"
};
}
else
{
std::set<std::string> all = Botan_Tests::Test::registered_tests();
for(auto const& r : req)
{
if(all.find(r) == all.end())
{
throw Botan_Tests::Test_Error("Unknown test suite: " + r);
}
}
}
output() << "Testing " << Botan::version_string() << "\n";
const std::string cpuid = Botan::CPUID::to_string();
if(cpuid.size() > 0)
output() << "CPU flags: " << cpuid << "\n";
output() << "Starting tests";
if(!opts.pkcs11_lib().empty())
{
output() << " pkcs11 library:" << opts.pkcs11_lib();
}
if(!opts.provider().empty())
{
output() << " provider:" << opts.provider();
}
std::vector<uint8_t> seed = Botan::hex_decode(opts.drbg_seed());
if(seed.empty())
{
const uint64_t ts = Botan_Tests::Test::timestamp();
seed.resize(8);
Botan::store_be(ts, seed.data());
}
output() << " drbg_seed:" << Botan::hex_encode(seed) << "\n";
Botan_Tests::Test::set_test_options(opts);
for(size_t i = 0; i != opts.test_runs(); ++i)
{
std::unique_ptr<Botan::RandomNumberGenerator> rng =
std::unique_ptr<Botan::RandomNumberGenerator>(new Testsuite_RNG(seed, i));
Botan_Tests::Test::set_test_rng(std::move(rng));
const size_t failed = run_tests(req, opts.test_threads(), i, opts.test_runs());
if(failed > 0)
return static_cast<int>(failed);
}
return 0;
}
namespace {
std::string report_out(const std::vector<Botan_Tests::Test::Result>& results,
size_t& tests_failed,
size_t& tests_ran)
{
std::ostringstream out;
std::map<std::string, Botan_Tests::Test::Result> combined;
for(auto const& result : results)
{
const std::string who = result.who();
auto i = combined.find(who);
if(i == combined.end())
{
combined.insert(std::make_pair(who, Botan_Tests::Test::Result(who)));
i = combined.find(who);
}
i->second.merge(result);
}
for(auto const& result : combined)
{
out << result.second.result_string();
tests_failed += result.second.tests_failed();
tests_ran += result.second.tests_run();
}
return out.str();
}
std::vector<Test::Result> run_a_test(const std::string& test_name)
{
std::vector<Test::Result> results;
try
{
if(test_name == "simd_32" && Botan::CPUID::has_simd_32() == false)
{
results.push_back(Test::Result::Note(test_name, "SIMD not available on this platform"));
}
else if(std::unique_ptr<Test> test = Test::get_test(test_name))
{
std::vector<Test::Result> test_results = test->run();
results.insert(results.end(), test_results.begin(), test_results.end());
}
else
{
results.push_back(Test::Result::Note(test_name, "Test missing or unavailable"));
}
}
catch(std::exception& e)
{
results.push_back(Test::Result::Failure(test_name, e.what()));
}
catch(...)
{
results.push_back(Test::Result::Failure(test_name, "unknown exception"));
}
return results;
}
std::string test_summary(size_t test_run, size_t tot_test_runs, uint64_t total_ns,
size_t tests_ran, size_t tests_failed)
{
std::ostringstream oss;
if(test_run == 0 && tot_test_runs == 1)
oss << "Tests";
else
oss << "Test run " << (1+test_run) << "/" << tot_test_runs;
oss << " complete ran " << tests_ran << " tests in "
<< Botan_Tests::Test::format_time(total_ns) << " ";
if(tests_failed > 0)
{
oss << tests_failed << " tests failed";
}
else if(tests_ran > 0)
{
oss << "all tests ok";
}
oss << "\n";
return oss.str();
}
}
size_t Test_Runner::run_tests(const std::vector<std::string>& tests_to_run,
size_t test_threads,
size_t test_run,
size_t tot_test_runs)
{
size_t tests_ran = 0, tests_failed = 0;
const uint64_t start_time = Botan_Tests::Test::timestamp();
if(test_threads != 1)
{
#if defined(BOTAN_HAS_THREAD_UTILS)
// If 0 then we let thread pool select the count
Botan::Thread_Pool pool(test_threads);
std::vector<std::future<std::vector<Test::Result>>> m_fut_results;
for(auto const& test_name : tests_to_run)
{
m_fut_results.push_back(pool.run(run_a_test, test_name));
}
for(size_t i = 0; i != m_fut_results.size(); ++i)
{
output() << tests_to_run[i] << ':' << std::endl;
const std::vector<Test::Result> results = m_fut_results[i].get();
output() << report_out(results, tests_failed, tests_ran) << std::flush;
}
pool.shutdown();
const uint64_t total_ns = Botan_Tests::Test::timestamp() - start_time;
output() << test_summary(test_run, tot_test_runs, total_ns, tests_ran, tests_failed);
return tests_failed;
#else
output() << "Running tests in multiple threads not enabled in this build\n";
#endif
}
for(auto const& test_name : tests_to_run)
{
output() << test_name << ':' << std::endl;
const std::vector<Test::Result> results = run_a_test(test_name);
output() << report_out(results, tests_failed, tests_ran) << std::flush;
}
const uint64_t total_ns = Botan_Tests::Test::timestamp() - start_time;
output() << test_summary(test_run, tot_test_runs, total_ns, tests_ran, tests_failed);
return tests_failed;
}
}
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