/* SPDX-License-Identifier: LGPL-2.1-or-later */ #include "alloc-util.h" #include "string-util.h" #include "strv.h" #include "tests.h" #include "utf8.h" #include "util.h" TEST(utf8_is_printable) { assert_se(utf8_is_printable("ascii is valid\tunicode", 22)); assert_se(utf8_is_printable("\342\204\242", 3)); assert_se(!utf8_is_printable("\341\204", 2)); assert_se(utf8_is_printable("ąę", 4)); assert_se(!utf8_is_printable("\r", 1)); assert_se(utf8_is_printable("\n", 1)); assert_se(utf8_is_printable("\t", 1)); } TEST(utf8_n_is_valid) { assert_se( utf8_is_valid_n("ascii is valid unicode", 21)); assert_se( utf8_is_valid_n("ascii is valid unicode", 22)); assert_se(!utf8_is_valid_n("ascii is valid unicode", 23)); assert_se( utf8_is_valid_n("\342\204\242", 0)); assert_se(!utf8_is_valid_n("\342\204\242", 1)); assert_se(!utf8_is_valid_n("\342\204\242", 2)); assert_se( utf8_is_valid_n("\342\204\242", 3)); assert_se(!utf8_is_valid_n("\342\204\242", 4)); assert_se( utf8_is_valid_n("", 0)); assert_se( utf8_is_valid_n("", 1)); assert_se( utf8_is_valid_n("", 2)); assert_se( utf8_is_valid_n("", 3)); assert_se( utf8_is_valid_n("", 4)); assert_se(!utf8_is_valid_n("", 5)); } TEST(utf8_is_valid) { assert_se(utf8_is_valid("ascii is valid unicode")); assert_se(utf8_is_valid("\342\204\242")); assert_se(!utf8_is_valid("\341\204")); } TEST(ascii_is_valid) { assert_se( ascii_is_valid("alsdjf\t\vbarr\nba z")); assert_se(!ascii_is_valid("\342\204\242")); assert_se(!ascii_is_valid("\341\204")); } TEST(ascii_is_valid_n) { assert_se( ascii_is_valid_n("alsdjf\t\vbarr\nba z", 17)); assert_se( ascii_is_valid_n("alsdjf\t\vbarr\nba z", 16)); assert_se(!ascii_is_valid_n("alsdjf\t\vbarr\nba z", 18)); assert_se(!ascii_is_valid_n("\342\204\242", 3)); assert_se(!ascii_is_valid_n("\342\204\242", 2)); assert_se(!ascii_is_valid_n("\342\204\242", 1)); assert_se( ascii_is_valid_n("\342\204\242", 0)); } static void test_utf8_to_ascii_one(const char *s, int r_expected, const char *expected) { _cleanup_free_ char *ans = NULL; int r; r = utf8_to_ascii(s, '*', &ans); log_debug("\"%s\" → %d/\"%s\" (expected %d/\"%s\")", s, r, strnull(ans), r_expected, strnull(expected)); assert_se(r == r_expected); assert_se(streq_ptr(ans, expected)); } TEST(utf8_to_ascii) { test_utf8_to_ascii_one("asdf", 0, "asdf"); test_utf8_to_ascii_one("dąb", 0, "d*b"); test_utf8_to_ascii_one("żęśłą óźń", 0, "***** ***"); test_utf8_to_ascii_one("\342\204\242", 0, "*"); test_utf8_to_ascii_one("\342\204", -EINVAL, NULL); /* truncated */ test_utf8_to_ascii_one("\342", -EINVAL, NULL); /* truncated */ test_utf8_to_ascii_one("\302\256", 0, "*"); test_utf8_to_ascii_one("", 0, ""); test_utf8_to_ascii_one(" ", 0, " "); test_utf8_to_ascii_one("\t", 0, "\t"); test_utf8_to_ascii_one("串", 0, "*"); test_utf8_to_ascii_one("…👊🔪💐…", 0, "*****"); } TEST(utf8_encoded_valid_unichar) { assert_se(utf8_encoded_valid_unichar("\342\204\242", 1) == -EINVAL); /* truncated */ assert_se(utf8_encoded_valid_unichar("\342\204\242", 2) == -EINVAL); /* truncated */ assert_se(utf8_encoded_valid_unichar("\342\204\242", 3) == 3); assert_se(utf8_encoded_valid_unichar("\342\204\242", 4) == 3); assert_se(utf8_encoded_valid_unichar("\302\256", 1) == -EINVAL); /* truncated */ assert_se(utf8_encoded_valid_unichar("\302\256", 2) == 2); assert_se(utf8_encoded_valid_unichar("\302\256", 3) == 2); assert_se(utf8_encoded_valid_unichar("\302\256", SIZE_MAX) == 2); assert_se(utf8_encoded_valid_unichar("a", 1) == 1); assert_se(utf8_encoded_valid_unichar("a", 2) == 1); assert_se(utf8_encoded_valid_unichar("\341\204", 1) == -EINVAL); /* truncated, potentially valid */ assert_se(utf8_encoded_valid_unichar("\341\204", 2) == -EINVAL); /* truncated, potentially valid */ assert_se(utf8_encoded_valid_unichar("\341\204", 3) == -EINVAL); assert_se(utf8_encoded_valid_unichar("\341\204\341\204", 4) == -EINVAL); assert_se(utf8_encoded_valid_unichar("\341\204\341\204", 5) == -EINVAL); } TEST(utf8_escape_invalid) { _cleanup_free_ char *p1 = NULL, *p2 = NULL, *p3 = NULL; p1 = utf8_escape_invalid("goo goo goo"); log_debug("\"%s\"", p1); assert_se(utf8_is_valid(p1)); p2 = utf8_escape_invalid("\341\204\341\204"); log_debug("\"%s\"", p2); assert_se(utf8_is_valid(p2)); p3 = utf8_escape_invalid("\341\204"); log_debug("\"%s\"", p3); assert_se(utf8_is_valid(p3)); } TEST(utf8_escape_non_printable) { _cleanup_free_ char *p1 = NULL, *p2 = NULL, *p3 = NULL, *p4 = NULL, *p5 = NULL, *p6 = NULL; p1 = utf8_escape_non_printable("goo goo goo"); log_debug("\"%s\"", p1); assert_se(utf8_is_valid(p1)); p2 = utf8_escape_non_printable("\341\204\341\204"); log_debug("\"%s\"", p2); assert_se(utf8_is_valid(p2)); p3 = utf8_escape_non_printable("\341\204"); log_debug("\"%s\"", p3); assert_se(utf8_is_valid(p3)); p4 = utf8_escape_non_printable("ąę\n가너도루\n1234\n\341\204\341\204\n\001 \019\20\a"); log_debug("\"%s\"", p4); assert_se(utf8_is_valid(p4)); p5 = utf8_escape_non_printable("\001 \019\20\a"); log_debug("\"%s\"", p5); assert_se(utf8_is_valid(p5)); p6 = utf8_escape_non_printable("\xef\xbf\x30\x13"); log_debug("\"%s\"", p6); assert_se(utf8_is_valid(p6)); } TEST(utf8_escape_non_printable_full) { FOREACH_STRING(s, "goo goo goo", /* ASCII */ "\001 \019\20\a", /* control characters */ "\xef\xbf\x30\x13") /* misplaced continuation bytes followed by a digit and cc */ for (size_t cw = 0; cw < 22; cw++) { _cleanup_free_ char *p = NULL, *q = NULL; size_t ew; p = utf8_escape_non_printable_full(s, cw, false); ew = utf8_console_width(p); log_debug("%02zu \"%s\" (%zu wasted)", cw, p, cw - ew); assert_se(utf8_is_valid(p)); assert_se(ew <= cw); q = utf8_escape_non_printable_full(s, cw, true); ew = utf8_console_width(q); log_debug(" \"%s\" (%zu wasted)", q, cw - ew); assert_se(utf8_is_valid(q)); assert_se(ew <= cw); if (cw > 0) assert_se(endswith(q, "…")); } } TEST(utf16_to_utf8) { const char16_t utf16[] = { htole16('a'), htole16(0xd800), htole16('b'), htole16(0xdc00), htole16('c'), htole16(0xd801), htole16(0xdc37) }; static const char utf8[] = { 'a', 'b', 'c', 0xf0, 0x90, 0x90, 0xb7 }; _cleanup_free_ char16_t *b = NULL; _cleanup_free_ char *a = NULL; /* Convert UTF-16 to UTF-8, filtering embedded bad chars */ a = utf16_to_utf8(utf16, sizeof(utf16)); assert_se(a); assert_se(memcmp(a, utf8, sizeof(utf8)) == 0); /* Convert UTF-8 to UTF-16, and back */ b = utf8_to_utf16(utf8, sizeof(utf8)); assert_se(b); free(a); a = utf16_to_utf8(b, char16_strlen(b) * 2); assert_se(a); assert_se(strlen(a) == sizeof(utf8)); assert_se(memcmp(a, utf8, sizeof(utf8)) == 0); } TEST(utf8_n_codepoints) { assert_se(utf8_n_codepoints("abc") == 3); assert_se(utf8_n_codepoints("zażółcić gęślą jaźń") == 19); assert_se(utf8_n_codepoints("串") == 1); assert_se(utf8_n_codepoints("") == 0); assert_se(utf8_n_codepoints("…👊🔪💐…") == 5); assert_se(utf8_n_codepoints("\xF1") == SIZE_MAX); } TEST(utf8_console_width) { assert_se(utf8_console_width("abc") == 3); assert_se(utf8_console_width("zażółcić gęślą jaźń") == 19); assert_se(utf8_console_width("串") == 2); assert_se(utf8_console_width("") == 0); assert_se(utf8_console_width("…👊🔪💐…") == 8); assert_se(utf8_console_width("\xF1") == SIZE_MAX); } TEST(utf8_to_utf16) { FOREACH_STRING(p, "abc", "zażółcić gęślą jaźń", "串", "", "…👊🔪💐…") { _cleanup_free_ char16_t *a = NULL; _cleanup_free_ char *b = NULL; a = utf8_to_utf16(p, strlen(p)); assert_se(a); b = utf16_to_utf8(a, char16_strlen(a) * 2); assert_se(b); assert_se(streq(p, b)); } } static int intro(void) { log_show_color(true); return EXIT_SUCCESS; } DEFINE_TEST_MAIN_WITH_INTRO(LOG_INFO, intro);