/* Copyright (c) 2012, Arvid Norberg All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * 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. * Neither the name of the author 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 OWNER 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 "libtorrent/file.hpp" #include "test.hpp" #include "setup_transfer.hpp" // for test_sleep #include // for strcmp #include #include using namespace libtorrent; int touch_file(std::string const& filename, int size) { using namespace libtorrent; std::vector v; v.resize(size); for (int i = 0; i < size; ++i) v[i] = i & 255; file f; error_code ec; if (!f.open(filename, file::write_only, ec)) return -1; if (ec) return -1; file::iovec_t b = {&v[0], v.size()}; boost::int64_t written = f.writev(0, &b, 1, ec); if (written != int(v.size())) return -3; if (ec) return -3; return 0; } TORRENT_TEST(create_directory) { error_code ec; create_directory("__foobar__", ec); TEST_CHECK(!ec); file_status st; stat_file("__foobar__", &st, ec); TEST_CHECK(!ec); TEST_CHECK(st.mode & file_status::directory); remove("__foobar__", ec); TEST_CHECK(!ec); } TORRENT_TEST(file_status) { error_code ec; // test that the modification timestamps touch_file("__test_timestamp__", 10); file_status st1; stat_file("__test_timestamp__", &st1, ec); TEST_CHECK(!ec); // sleep for 3 seconds and then make sure the difference in timestamp is // between 2-4 seconds after touching it again test_sleep(3000); touch_file("__test_timestamp__", 10); file_status st2; stat_file("__test_timestamp__", &st2, ec); TEST_CHECK(!ec); int diff = int(st2.mtime - st1.mtime); fprintf(stdout, "timestamp difference: %d seconds. expected approx. 3 seconds\n" , diff); TEST_CHECK(diff >= 2 && diff <= 4); } TORRENT_TEST(directory) { error_code ec; create_directory("file_test_dir", ec); if (ec) fprintf(stdout, "create_directory: %s\n", ec.message().c_str()); TEST_CHECK(!ec); std::string cwd = current_working_directory(); touch_file(combine_path("file_test_dir", "abc"), 10); touch_file(combine_path("file_test_dir", "def"), 100); touch_file(combine_path("file_test_dir", "ghi"), 1000); std::set files; for (directory i("file_test_dir", ec); !i.done(); i.next(ec)) { std::string f = i.file(); TEST_CHECK(files.count(f) == 0); files.insert(f); fprintf(stdout, " %s\n", f.c_str()); } TEST_CHECK(files.count("abc") == 1); TEST_CHECK(files.count("def") == 1); TEST_CHECK(files.count("ghi") == 1); TEST_CHECK(files.count("..") == 1); TEST_CHECK(files.count(".") == 1); files.clear(); recursive_copy("file_test_dir", "file_test_dir2", ec); for (directory i("file_test_dir2", ec); !i.done(); i.next(ec)) { std::string f = i.file(); TEST_CHECK(files.count(f) == 0); files.insert(f); fprintf(stdout, " %s\n", f.c_str()); } remove_all("file_test_dir", ec); if (ec) fprintf(stdout, "remove_all: %s\n", ec.message().c_str()); remove_all("file_test_dir2", ec); if (ec) fprintf(stdout, "remove_all: %s\n", ec.message().c_str()); } // test path functions TORRENT_TEST(paths) { TEST_EQUAL(combine_path("test1/", "test2"), "test1/test2"); TEST_EQUAL(combine_path("test1", "."), "test1"); TEST_EQUAL(combine_path(".", "test1"), "test1"); #ifdef TORRENT_WINDOWS TEST_EQUAL(combine_path("test1\\", "test2"), "test1\\test2"); TEST_EQUAL(combine_path("test1", "test2"), "test1\\test2"); #else TEST_EQUAL(combine_path("test1", "test2"), "test1/test2"); #endif #if TORRENT_USE_UNC_PATHS TEST_EQUAL(canonicalize_path("c:\\a\\..\\b"), "c:\\b"); TEST_EQUAL(canonicalize_path("a\\..\\b"), "b"); TEST_EQUAL(canonicalize_path("a\\..\\.\\b"), "b"); TEST_EQUAL(canonicalize_path("\\.\\a"), "\\a"); TEST_EQUAL(canonicalize_path("\\\\bla\\.\\a"), "\\\\bla\\a"); TEST_EQUAL(canonicalize_path("c:\\bla\\a"), "c:\\bla\\a"); #endif TEST_EQUAL(extension("blah"), ""); TEST_EQUAL(extension("blah.exe"), ".exe"); TEST_EQUAL(extension("blah.foo.bar"), ".bar"); TEST_EQUAL(extension("blah.foo."), "."); TEST_EQUAL(extension("blah.foo/bar"), ""); TEST_EQUAL(remove_extension("blah"), "blah"); TEST_EQUAL(remove_extension("blah.exe"), "blah"); TEST_EQUAL(remove_extension("blah.foo.bar"), "blah.foo"); TEST_EQUAL(remove_extension("blah.foo."), "blah.foo"); TEST_EQUAL(filename("blah"), "blah"); TEST_EQUAL(filename("/blah/foo/bar"), "bar"); TEST_EQUAL(filename("/blah/foo/bar/"), "bar"); TEST_EQUAL(filename("blah/"), "blah"); #ifdef TORRENT_WINDOWS TEST_EQUAL(is_root_path("c:\\blah"), false); TEST_EQUAL(is_root_path("c:\\"), true); TEST_EQUAL(is_root_path("\\\\"), true); TEST_EQUAL(is_root_path("\\\\foobar"), true); TEST_EQUAL(is_root_path("\\\\foobar\\"), true); TEST_EQUAL(is_root_path("\\\\foobar/"), true); TEST_EQUAL(is_root_path("\\\\foo/bar"), false); TEST_EQUAL(is_root_path("\\\\foo\\bar\\"), false); #else TEST_EQUAL(is_root_path("/blah"), false); TEST_EQUAL(is_root_path("/"), true); #endif #ifdef TORRENT_WINDOWS TEST_CHECK(compare_path("c:\\blah\\", "c:\\blah")); TEST_CHECK(compare_path("c:\\blah", "c:\\blah")); TEST_CHECK(compare_path("c:\\blah/", "c:\\blah")); TEST_CHECK(compare_path("c:\\blah", "c:\\blah\\")); TEST_CHECK(compare_path("c:\\blah", "c:\\blah")); TEST_CHECK(compare_path("c:\\blah", "c:\\blah/")); TEST_CHECK(!compare_path("c:\\bla", "c:\\blah/")); TEST_CHECK(!compare_path("c:\\bla", "c:\\blah")); TEST_CHECK(!compare_path("c:\\blah", "c:\\bla")); TEST_CHECK(!compare_path("c:\\blah\\sdf", "c:\\blah")); #else TEST_CHECK(compare_path("/blah", "/blah")); TEST_CHECK(compare_path("/blah/", "/blah")); TEST_CHECK(compare_path("/blah", "/blah")); TEST_CHECK(compare_path("/blah", "/blah/")); TEST_CHECK(!compare_path("/bla", "/blah/")); TEST_CHECK(!compare_path("/bla", "/blah")); TEST_CHECK(!compare_path("/blah", "/bla")); TEST_CHECK(!compare_path("/blah/sdf", "/blah")); #endif // if has_parent_path() returns false // parent_path() should return the empty string TEST_EQUAL(parent_path("blah"), ""); TEST_EQUAL(has_parent_path("blah"), false); TEST_EQUAL(parent_path("/blah/foo/bar"), "/blah/foo/"); TEST_EQUAL(has_parent_path("/blah/foo/bar"), true); TEST_EQUAL(parent_path("/blah/foo/bar/"), "/blah/foo/"); TEST_EQUAL(has_parent_path("/blah/foo/bar/"), true); TEST_EQUAL(parent_path("/a"), "/"); TEST_EQUAL(has_parent_path("/a"), true); TEST_EQUAL(parent_path("/"), ""); TEST_EQUAL(has_parent_path("/"), false); TEST_EQUAL(parent_path(""), ""); TEST_EQUAL(has_parent_path(""), false); #ifdef TORRENT_WINDOWS TEST_EQUAL(parent_path("\\\\"), ""); TEST_EQUAL(has_parent_path("\\\\"), false); TEST_EQUAL(parent_path("c:\\"), ""); TEST_EQUAL(has_parent_path("c:\\"), false); TEST_EQUAL(parent_path("c:\\a"), "c:\\"); TEST_EQUAL(has_parent_path("c:\\a"), true); TEST_EQUAL(has_parent_path("\\\\a"), false); TEST_EQUAL(has_parent_path("\\\\foobar/"), false); TEST_EQUAL(has_parent_path("\\\\foobar\\"), false); TEST_EQUAL(has_parent_path("\\\\foo/bar\\"), true); #endif #ifdef TORRENT_WINDOWS TEST_EQUAL(is_complete("c:\\"), true); TEST_EQUAL(is_complete("c:\\foo\\bar"), true); TEST_EQUAL(is_complete("\\\\foo\\bar"), true); TEST_EQUAL(is_complete("foo/bar"), false); TEST_EQUAL(is_complete("\\\\"), true); #else TEST_EQUAL(is_complete("/foo/bar"), true); TEST_EQUAL(is_complete("foo/bar"), false); TEST_EQUAL(is_complete("/"), true); TEST_EQUAL(is_complete(""), false); #endif TEST_EQUAL(complete("."), current_working_directory()); } // test split_string TORRENT_TEST(split_string) { char const* tags[10]; char tags_str[] = " this is\ta test\t string\x01to be split and it cannot " "extend over the limit of elements \t"; int ret = split_string(tags, 10, tags_str); TEST_CHECK(ret == 10); TEST_CHECK(strcmp(tags[0], "this") == 0); TEST_CHECK(strcmp(tags[1], "is") == 0); TEST_CHECK(strcmp(tags[2], "a") == 0); TEST_CHECK(strcmp(tags[3], "test") == 0); TEST_CHECK(strcmp(tags[4], "string") == 0); TEST_CHECK(strcmp(tags[5], "to") == 0); TEST_CHECK(strcmp(tags[6], "be") == 0); TEST_CHECK(strcmp(tags[7], "split") == 0); TEST_CHECK(strcmp(tags[8], "and") == 0); TEST_CHECK(strcmp(tags[9], "it") == 0); // replace_extension std::string test = "foo.bar"; replace_extension(test, "txt"); TEST_EQUAL(test, "foo.txt"); test = "_"; replace_extension(test, "txt"); TEST_EQUAL(test, "_.txt"); test = "1.2.3/_"; replace_extension(test, "txt"); TEST_EQUAL(test, "1.2.3/_.txt"); } // file class TORRENT_TEST(file) { error_code ec; file f; TEST_CHECK(f.open("test_file", file::read_write, ec)); if (ec) fprintf(stdout, "open failed: [%s] %s\n", ec.category().name(), ec.message().c_str()); TEST_EQUAL(ec, error_code()); if (ec) fprintf(stdout, "%s\n", ec.message().c_str()); file::iovec_t b = {(void*)"test", 4}; TEST_EQUAL(f.writev(0, &b, 1, ec), 4); if (ec) fprintf(stdout, "writev failed: [%s] %s\n", ec.category().name(), ec.message().c_str()); TEST_CHECK(!ec); char test_buf[5] = {0}; b.iov_base = test_buf; b.iov_len = 4; TEST_EQUAL(f.readv(0, &b, 1, ec), 4); if (ec) fprintf(stdout, "readv failed: [%s] %s\n", ec.category().name(), ec.message().c_str()); TEST_EQUAL(ec, error_code()); TEST_CHECK(strcmp(test_buf, "test") == 0); f.close(); TEST_CHECK(f.open("test_file", file::read_only, ec)); if (ec) fprintf(stdout, "open failed: [%s] %s\n", ec.category().name(), ec.message().c_str()); TEST_EQUAL(ec, error_code()); file::iovec_t two_buffers[2]; std::memset(test_buf, 0, sizeof(test_buf)); char test_buf2[5] = {0}; two_buffers[0].iov_base = test_buf; two_buffers[0].iov_len = 4; two_buffers[1].iov_base = test_buf2; two_buffers[1].iov_len = 4; TEST_EQUAL(f.readv(0, two_buffers, 2, ec), 4); if (ec) fprintf(stdout, "readv failed: [%s] %s\n", ec.category().name(), ec.message().c_str()); TEST_EQUAL(ec, error_code()); TEST_CHECK(strcmp(test_buf, "test") == 0); f.close(); } TORRENT_TEST(hard_link) { // try to create a hard link to see what happens // first create a regular file to then add another link to. // create a file, write some stuff to it, create a hard link to that file, // read that file and assert we get the same stuff we wrote to the first file error_code ec; file f; TEST_CHECK(f.open("original_file", file::read_write, ec)); if (ec) fprintf(stdout, "open failed: [%s] %s\n", ec.category().name(), ec.message().c_str()); TEST_EQUAL(ec, error_code()); file::iovec_t b = {(void*)"abcdefghijklmnopqrstuvwxyz", 26}; TEST_EQUAL(f.writev(0, &b, 1, ec), 26); if (ec) fprintf(stdout, "writev failed: [%s] %s\n", ec.category().name(), ec.message().c_str()); TEST_EQUAL(ec, error_code()); f.close(); hard_link("original_file", "second_link", ec); if (ec) fprintf(stdout, "hard_link failed: [%s] %s\n", ec.category().name(), ec.message().c_str()); TEST_EQUAL(ec, error_code()); TEST_CHECK(f.open("second_link", file::read_write, ec)); if (ec) fprintf(stdout, "open failed: [%s] %s\n", ec.category().name(), ec.message().c_str()); TEST_EQUAL(ec, error_code()); char test_buf[27] = {0}; b.iov_base = test_buf; b.iov_len = 27; TEST_EQUAL(f.readv(0, &b, 1, ec), 26); if (ec) fprintf(stdout, "readv failed: [%s] %s\n", ec.category().name(), ec.message().c_str()); TEST_EQUAL(ec, error_code()); TEST_CHECK(strcmp(test_buf, "abcdefghijklmnopqrstuvwxyz") == 0); f.close(); remove("original_file", ec); if (ec) fprintf(stdout, "remove failed: [%s] %s\n", ec.category().name(), ec.message().c_str()); remove("second_link", ec); if (ec) fprintf(stdout, "remove failed: [%s] %s\n", ec.category().name(), ec.message().c_str()); } TORRENT_TEST(coalesce_buffer) { error_code ec; file f; TEST_CHECK(f.open("test_file", file::read_write, ec)); if (ec) fprintf(stdout, "open failed: [%s] %s\n", ec.category().name(), ec.message().c_str()); TEST_EQUAL(ec, error_code()); if (ec) fprintf(stdout, "%s\n", ec.message().c_str()); file::iovec_t b[2] = {{(void*)"test", 4}, {(void*)"foobar", 6}}; TEST_EQUAL(f.writev(0, b, 2, ec, file::coalesce_buffers), 4 + 6); if (ec) fprintf(stdout, "writev failed: [%s] %s\n", ec.category().name(), ec.message().c_str()); TEST_CHECK(!ec); char test_buf1[5] = {0}; char test_buf2[7] = {0}; b[0].iov_base = test_buf1; b[0].iov_len = 4; b[1].iov_base = test_buf2; b[1].iov_len = 6; TEST_EQUAL(f.readv(0, b, 2, ec), 4 + 6); if (ec) { fprintf(stdout, "readv failed: [%s] %s\n" , ec.category().name(), ec.message().c_str()); } TEST_EQUAL(ec, error_code()); TEST_CHECK(strcmp(test_buf1, "test") == 0); TEST_CHECK(strcmp(test_buf2, "foobar") == 0); f.close(); } #if 0 && TORRENT_USE_UNC_PATHS TORRENT_TEST(unc_paths) { std::string const reserved_name = "con"; error_code ec; { file f; TEST_CHECK(f.open(reserved_name, file::read_write, ec) && !ec); } remove(reserved_name, ec); TEST_CHECK(!ec); } #endif