// Copyright (c) 2018, The Monero Project // // All rights reserved. // // Redistribution and use in source and binary forms, with or without modification, are // permitted provided that the following conditions are met: // // 1. Redistributions of source code must retain the above copyright notice, this list of // conditions and the following disclaimer. // // 2. Redistributions in binary form must reproduce the above copyright notice, this list // of conditions and the following disclaimer in the documentation and/or other // materials provided with the distribution. // // 3. Neither the name of the copyright holder nor the names of its contributors may be // used to endorse or promote products derived from this software without specific // prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY // EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF // MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL // THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS // INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, // STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF // THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #include "gtest/gtest.h" #include "misc_log_ex.h" #include "mlocker.h" #if defined __GNUC__ && !defined _WIN32 #define HAVE_MLOCK 1 #endif #ifdef HAVE_MLOCK #define BASE(data) (char*)(((uintptr_t)(data.get() + page_size - 1)) / page_size * page_size) TEST(mlocker, distinct_1) { const size_t page_size = epee::mlocker::get_page_size(); ASSERT_TRUE(page_size > 0); const size_t base_pages = epee::mlocker::get_num_locked_pages(); const size_t base_objects = epee::mlocker::get_num_locked_objects(); std::unique_ptr data{new char[8 * page_size]}; std::shared_ptr m0{new epee::mlocker(BASE(data), 1)}; std::shared_ptr m1{new epee::mlocker(BASE(data) + 2 * page_size, 1)}; std::shared_ptr m2{new epee::mlocker(BASE(data) + 3 * page_size, 1)}; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 3); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 3); m0 = NULL; m1 = NULL; m2 = NULL; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 0); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 0); } TEST(mlocker, distinct_full_page) { const size_t page_size = epee::mlocker::get_page_size(); ASSERT_TRUE(page_size > 0); const size_t base_pages = epee::mlocker::get_num_locked_pages(); const size_t base_objects = epee::mlocker::get_num_locked_objects(); std::unique_ptr data{new char[8 * page_size]}; std::shared_ptr m0{new epee::mlocker(BASE(data), page_size)}; std::shared_ptr m1{new epee::mlocker(BASE(data) + 2 * page_size, page_size)}; std::shared_ptr m2{new epee::mlocker(BASE(data) + 3 * page_size, page_size)}; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 3); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 3); m0 = NULL; m1 = NULL; m2 = NULL; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 0); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 0); } TEST(mlocker, identical) { const size_t page_size = epee::mlocker::get_page_size(); ASSERT_TRUE(page_size >= 32); const size_t base_pages = epee::mlocker::get_num_locked_pages(); const size_t base_objects = epee::mlocker::get_num_locked_objects(); std::unique_ptr data{new char[8 * page_size]}; std::shared_ptr m0{new epee::mlocker(BASE(data) + page_size, 32)}; std::shared_ptr m1{new epee::mlocker(BASE(data) + page_size, 32)}; std::shared_ptr m2{new epee::mlocker(BASE(data) + page_size, 32)}; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 1); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 3); m1 = NULL; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 1); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 2); m0 = NULL; m2 = NULL; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 0); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 0); } TEST(mlocker, overlapping_small) { const size_t page_size = epee::mlocker::get_page_size(); ASSERT_TRUE(page_size >= 64); const size_t base_pages = epee::mlocker::get_num_locked_pages(); const size_t base_objects = epee::mlocker::get_num_locked_objects(); std::unique_ptr data{new char[8 * page_size]}; std::shared_ptr m0{new epee::mlocker(BASE(data), 32)}; std::shared_ptr m1{new epee::mlocker(BASE(data) + 16, 32)}; std::shared_ptr m2{new epee::mlocker(BASE(data) + 8, 32)}; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 1); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 3); m1 = NULL; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 1); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 2); m2 = NULL; m0 = NULL; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 0); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 0); } TEST(mlocker, multi_page) { const size_t page_size = epee::mlocker::get_page_size(); ASSERT_TRUE(page_size > 0); const size_t base_pages = epee::mlocker::get_num_locked_pages(); const size_t base_objects = epee::mlocker::get_num_locked_objects(); std::unique_ptr data{new char[8 * page_size]}; std::shared_ptr m0{new epee::mlocker(BASE(data) + page_size, page_size * 3)}; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 3); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 1); std::shared_ptr m1{new epee::mlocker(BASE(data) + page_size * 7, page_size)}; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 4); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 2); m0 = NULL; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 1); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 1); m1 = NULL; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 0); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 0); } TEST(mlocker, cross_page) { const size_t page_size = epee::mlocker::get_page_size(); ASSERT_TRUE(page_size > 32); const size_t base_pages = epee::mlocker::get_num_locked_pages(); const size_t base_objects = epee::mlocker::get_num_locked_objects(); std::unique_ptr data{new char[2 * page_size]}; std::shared_ptr m0{new epee::mlocker(BASE(data) + page_size - 1, 2)}; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 2); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 1); m0 = NULL; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 0); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 0); } TEST(mlocker, redundant) { const size_t page_size = epee::mlocker::get_page_size(); const size_t base_pages = epee::mlocker::get_num_locked_pages(); const size_t base_objects = epee::mlocker::get_num_locked_objects(); std::unique_ptr data{new char[2 * page_size]}; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 0); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 0); std::shared_ptr m0{new epee::mlocker(BASE(data), 32)}; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 1); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 1); std::shared_ptr m1{new epee::mlocker(BASE(data), 32)}; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 1); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 2); m1 = NULL; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 1); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 1); m0 = NULL; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 0); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 0); } TEST(mlocker, mlocked) { const size_t base_pages = epee::mlocker::get_num_locked_pages(); const size_t base_objects = epee::mlocker::get_num_locked_objects(); { struct Foo { uint64_t u; }; epee::mlocked l; ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 1); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 1); } ASSERT_EQ(epee::mlocker::get_num_locked_pages(), base_pages + 0); ASSERT_EQ(epee::mlocker::get_num_locked_objects(), base_objects + 0); } #endif