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tdlib-fork/tdutils/test/misc.cpp
levlam 0b6c1d226f Update clag-format to the latest (190926/r372920) version.
GitOrigin-RevId: 7861ae8ad28eb1f6a06ff3c6f56eff3f67b1d24c
2019-09-28 05:14:21 +03:00

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//
// Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2019
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
#include "td/utils/as.h"
#include "td/utils/base64.h"
#include "td/utils/BigNum.h"
#include "td/utils/bits.h"
#include "td/utils/CancellationToken.h"
#include "td/utils/common.h"
#include "td/utils/Hash.h"
#include "td/utils/HashMap.h"
#include "td/utils/HashSet.h"
#include "td/utils/HttpUrl.h"
#include "td/utils/invoke.h"
#include "td/utils/logging.h"
#include "td/utils/misc.h"
#include "td/utils/port/EventFd.h"
#include "td/utils/port/FileFd.h"
#include "td/utils/port/IPAddress.h"
#include "td/utils/port/path.h"
#include "td/utils/port/sleep.h"
#include "td/utils/port/Stat.h"
#include "td/utils/port/thread.h"
#include "td/utils/port/wstring_convert.h"
#include "td/utils/Random.h"
#include "td/utils/Slice.h"
#include "td/utils/Status.h"
#include "td/utils/StringBuilder.h"
#include "td/utils/tests.h"
#include "td/utils/Time.h"
#include "td/utils/translit.h"
#include "td/utils/uint128.h"
#include "td/utils/unicode.h"
#include "td/utils/utf8.h"
#include <atomic>
#include <clocale>
#include <limits>
#include <locale>
#include <unordered_map>
#include <utility>
#if TD_HAVE_ABSL
#include <absl/container/flat_hash_map.h>
#endif
using namespace td;
#if TD_LINUX || TD_DARWIN
TEST(Misc, update_atime_saves_mtime) {
SET_VERBOSITY_LEVEL(VERBOSITY_NAME(ERROR));
std::string name = "test_file";
unlink(name).ignore();
auto r_file = FileFd::open(name, FileFd::Read | FileFd::Flags::Create | FileFd::Flags::Truncate);
LOG_IF(ERROR, r_file.is_error()) << r_file.error();
ASSERT_TRUE(r_file.is_ok());
r_file.move_as_ok().close();
auto info = stat(name).ok();
int32 tests_ok = 0;
int32 tests_wa = 0;
for (int i = 0; i < 10000; i++) {
update_atime(name).ensure();
auto new_info = stat(name).ok();
if (info.mtime_nsec_ == new_info.mtime_nsec_) {
tests_ok++;
} else {
tests_wa++;
info.mtime_nsec_ = new_info.mtime_nsec_;
}
ASSERT_EQ(info.mtime_nsec_, new_info.mtime_nsec_);
usleep_for(Random::fast(0, 1000));
}
if (tests_wa > 0) {
LOG(ERROR) << "Access time was unexpectedly updated " << tests_wa << " times";
}
unlink(name).ensure();
}
TEST(Misc, update_atime_change_atime) {
SET_VERBOSITY_LEVEL(VERBOSITY_NAME(ERROR));
std::string name = "test_file";
unlink(name).ignore();
auto r_file = FileFd::open(name, FileFd::Read | FileFd::Flags::Create | FileFd::Flags::Truncate);
LOG_IF(ERROR, r_file.is_error()) << r_file.error();
ASSERT_TRUE(r_file.is_ok());
r_file.move_as_ok().close();
auto info = stat(name).ok();
// not enough for fat and e.t.c.
usleep_for(5000000);
update_atime(name).ensure();
auto new_info = stat(name).ok();
if (info.atime_nsec_ == new_info.atime_nsec_) {
LOG(ERROR) << "Access time was unexpectedly not changed";
}
unlink(name).ensure();
}
#endif
TEST(Misc, errno_tls_bug) {
// That's a problem that should be avoided
// errno = 0;
// impl_.alloc(123);
// CHECK(errno == 0);
#if !TD_THREAD_UNSUPPORTED && !TD_EVENTFD_UNSUPPORTED
EventFd test_event_fd;
test_event_fd.init();
std::atomic<int> s{0};
s = 1;
td::thread th([&] {
while (s != 1) {
}
test_event_fd.acquire();
});
th.join();
for (int i = 0; i < 1000; i++) {
vector<EventFd> events(10);
vector<td::thread> threads;
for (auto &event : events) {
event.init();
event.release();
}
for (auto &event : events) {
threads.push_back(td::thread([&] {
{
EventFd tmp;
tmp.init();
tmp.acquire();
}
event.acquire();
}));
}
for (auto &thread : threads) {
thread.join();
}
}
#endif
}
TEST(Misc, get_last_argument) {
auto a = make_unique<int>(5);
ASSERT_EQ(*get_last_argument(std::move(a)), 5);
ASSERT_EQ(*get_last_argument(1, 2, 3, 4, a), 5);
ASSERT_EQ(*get_last_argument(a), 5);
auto b = get_last_argument(1, 2, 3, std::move(a));
ASSERT_TRUE(!a);
ASSERT_EQ(*b, 5);
}
TEST(Misc, call_n_arguments) {
auto f = [](int, int) {
};
call_n_arguments<2>(f, 1, 3, 4);
}
TEST(Misc, base64) {
ASSERT_TRUE(is_base64("dGVzdA==") == true);
ASSERT_TRUE(is_base64("dGVzdB==") == false);
ASSERT_TRUE(is_base64("dGVzdA=") == false);
ASSERT_TRUE(is_base64("dGVzdA") == false);
ASSERT_TRUE(is_base64("dGVz") == true);
ASSERT_TRUE(is_base64("") == true);
ASSERT_TRUE(is_base64("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/") == true);
ASSERT_TRUE(is_base64("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/=") == false);
ASSERT_TRUE(is_base64("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-/") == false);
ASSERT_TRUE(is_base64("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_") == false);
ASSERT_TRUE(is_base64("====") == false);
ASSERT_TRUE(is_base64url("dGVzdA==") == true);
ASSERT_TRUE(is_base64url("dGVzdB==") == false);
ASSERT_TRUE(is_base64url("dGVzdA=") == false);
ASSERT_TRUE(is_base64url("dGVzdA") == true);
ASSERT_TRUE(is_base64url("dGVz") == true);
ASSERT_TRUE(is_base64url("") == true);
ASSERT_TRUE(is_base64url("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_") == true);
ASSERT_TRUE(is_base64url("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_=") == false);
ASSERT_TRUE(is_base64url("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-/") == false);
ASSERT_TRUE(is_base64url("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/") == false);
ASSERT_TRUE(is_base64url("====") == false);
for (int l = 0; l < 300000; l += l / 20 + l / 1000 * 500 + 1) {
for (int t = 0; t < 10; t++) {
string s = rand_string(std::numeric_limits<char>::min(), std::numeric_limits<char>::max(), l);
string encoded = base64url_encode(s);
auto decoded = base64url_decode(encoded);
ASSERT_TRUE(decoded.is_ok());
ASSERT_TRUE(decoded.ok() == s);
encoded = base64_encode(s);
decoded = base64_decode(encoded);
ASSERT_TRUE(decoded.is_ok());
ASSERT_TRUE(decoded.ok() == s);
}
}
ASSERT_TRUE(base64url_decode("dGVzdA").is_ok());
ASSERT_TRUE(base64url_decode("dGVzdB").is_error());
ASSERT_TRUE(base64_encode(base64url_decode("dGVzdA").ok()) == "dGVzdA==");
ASSERT_TRUE(base64_encode("any carnal pleas") == "YW55IGNhcm5hbCBwbGVhcw==");
ASSERT_TRUE(base64_encode("any carnal pleasu") == "YW55IGNhcm5hbCBwbGVhc3U=");
ASSERT_TRUE(base64_encode("any carnal pleasur") == "YW55IGNhcm5hbCBwbGVhc3Vy");
ASSERT_TRUE(base64_encode(" /'.;.';≤.];,].',[.;/,.;/]/..;!@#!*(%?::;!%\";") ==
"ICAgICAgLycuOy4nO+KJpC5dOyxdLicsWy47LywuOy9dLy4uOyFAIyEqKCU/"
"Ojo7ISUiOw==");
}
TEST(Misc, to_integer) {
ASSERT_EQ(to_integer<int32>("-1234567"), -1234567);
ASSERT_EQ(to_integer<int64>("-1234567"), -1234567);
ASSERT_EQ(to_integer<uint32>("-1234567"), 0u);
ASSERT_EQ(to_integer<int16>("-1234567"), 10617);
ASSERT_EQ(to_integer<uint16>("-1234567"), 0u);
ASSERT_EQ(to_integer<int16>("-1254567"), -9383);
ASSERT_EQ(to_integer<uint16>("1254567"), 9383u);
ASSERT_EQ(to_integer<int64>("-12345678910111213"), -12345678910111213);
ASSERT_EQ(to_integer<uint64>("12345678910111213"), 12345678910111213ull);
ASSERT_EQ(to_integer_safe<int32>("-1234567").ok(), -1234567);
ASSERT_EQ(to_integer_safe<int64>("-1234567").ok(), -1234567);
ASSERT_TRUE(to_integer_safe<uint32>("-1234567").is_error());
ASSERT_TRUE(to_integer_safe<int16>("-1234567").is_error());
ASSERT_TRUE(to_integer_safe<uint16>("-1234567").is_error());
ASSERT_TRUE(to_integer_safe<int16>("-1254567").is_error());
ASSERT_TRUE(to_integer_safe<uint16>("1254567").is_error());
ASSERT_EQ(to_integer_safe<int64>("-12345678910111213").ok(), -12345678910111213);
ASSERT_EQ(to_integer_safe<uint64>("12345678910111213").ok(), 12345678910111213ull);
ASSERT_TRUE(to_integer_safe<uint64>("-12345678910111213").is_error());
}
static void test_to_double_one(CSlice str, Slice expected, int precision = 6) {
auto result = PSTRING() << td::StringBuilder::FixedDouble(to_double(str), precision);
if (expected != result) {
LOG(ERROR) << "To double conversion failed: have " << str << ", expected " << expected << ", parsed "
<< to_double(str) << ", got " << result;
}
}
static void test_to_double() {
test_to_double_one("0", "0.000000");
test_to_double_one("1", "1.000000");
test_to_double_one("-10", "-10.000000");
test_to_double_one("1.234", "1.234000");
test_to_double_one("-1.234e2", "-123.400000");
test_to_double_one("inf", "inf");
test_to_double_one(" inF asdasd", "inf");
test_to_double_one(" inFasdasd", "0.000000");
test_to_double_one(" NaN", "nan");
test_to_double_one(" 12345678910111213141516171819 asdasd", "12345678910111213670658736128.000000");
test_to_double_one("1.234567891011121314E123",
"1234567891011121363209105003376291141757777526749278953577304234065881343284952489418916814035346"
"625663604561924259911303168.000000");
test_to_double_one("1.234567891011121314E-9", "0.000000");
test_to_double_one("123456789", "123456789.000000");
test_to_double_one("-1,234567891011121314E123", "-1.000000");
test_to_double_one("123456789", "123456789", 0);
test_to_double_one("1.23456789", "1", 0);
test_to_double_one("1.23456789", "1.2", 1);
test_to_double_one("1.23456789", "1.23", 2);
test_to_double_one("1.23456789", "1.235", 3);
test_to_double_one("1.23456789", "1.2346", 4);
test_to_double_one("1.23456789", "1.23457", 5);
test_to_double_one("1.23456789", "1.234568", 6);
test_to_double_one("1.23456789", "1.2345679", 7);
test_to_double_one("1.23456789", "1.23456789", 8);
test_to_double_one("1.23456789", "1.234567890", 9);
test_to_double_one("1.23456789", "1.2345678900", 10);
}
TEST(Misc, to_double) {
test_to_double();
const char *locale_name = (std::setlocale(LC_ALL, "fr-FR") == nullptr ? "" : "fr-FR");
std::locale new_locale(locale_name);
auto host_locale = std::locale::global(new_locale);
test_to_double();
new_locale = std::locale::global(std::locale::classic());
test_to_double();
auto classic_locale = std::locale::global(host_locale);
test_to_double();
}
TEST(Misc, print_int) {
ASSERT_STREQ("-9223372036854775808", PSLICE() << -9223372036854775807 - 1);
ASSERT_STREQ("-2147483649", PSLICE() << -2147483649ll);
ASSERT_STREQ("-2147483648", PSLICE() << -2147483647 - 1);
ASSERT_STREQ("-2147483647", PSLICE() << -2147483647);
ASSERT_STREQ("-123456789", PSLICE() << -123456789);
ASSERT_STREQ("-1", PSLICE() << -1);
ASSERT_STREQ("0", PSLICE() << 0);
ASSERT_STREQ("1", PSLICE() << 1);
ASSERT_STREQ("9", PSLICE() << 9);
ASSERT_STREQ("10", PSLICE() << 10);
ASSERT_STREQ("2147483647", PSLICE() << 2147483647);
ASSERT_STREQ("2147483648", PSLICE() << 2147483648ll);
ASSERT_STREQ("2147483649", PSLICE() << 2147483649ll);
ASSERT_STREQ("9223372036854775807", PSLICE() << 9223372036854775807ll);
}
TEST(Misc, print_uint) {
ASSERT_STREQ("0", PSLICE() << 0u);
ASSERT_STREQ("1", PSLICE() << 1u);
ASSERT_STREQ("9", PSLICE() << 9u);
ASSERT_STREQ("10", PSLICE() << 10u);
ASSERT_STREQ("2147483647", PSLICE() << 2147483647u);
ASSERT_STREQ("2147483648", PSLICE() << 2147483648u);
ASSERT_STREQ("2147483649", PSLICE() << 2147483649u);
ASSERT_STREQ("9223372036854775807", PSLICE() << 9223372036854775807u);
}
static void test_get_url_query_file_name_one(const char *prefix, const char *suffix, const char *file_name) {
auto path = string(prefix) + string(file_name) + string(suffix);
ASSERT_STREQ(file_name, get_url_query_file_name(path));
ASSERT_STREQ(file_name, get_url_file_name("http://telegram.org" + path));
ASSERT_STREQ(file_name, get_url_file_name("http://telegram.org:80" + path));
ASSERT_STREQ(file_name, get_url_file_name("telegram.org" + path));
}
TEST(Misc, get_url_query_file_name) {
for (auto suffix : {"?t=1#test", "#test?t=1", "#?t=1", "?t=1#", "#test", "?t=1", "#", "?", ""}) {
test_get_url_query_file_name_one("", suffix, "");
test_get_url_query_file_name_one("/", suffix, "");
test_get_url_query_file_name_one("/a/adasd/", suffix, "");
test_get_url_query_file_name_one("/a/lklrjetn/", suffix, "adasd.asdas");
test_get_url_query_file_name_one("/", suffix, "a123asadas");
test_get_url_query_file_name_one("/", suffix, "\\a\\1\\2\\3\\a\\s\\a\\das");
}
}
static void test_idn_to_ascii_one(string host, string result) {
if (result != idn_to_ascii(host).ok()) {
LOG(ERROR) << "Failed to convert " << host << " to " << result << ", got \"" << idn_to_ascii(host).ok() << "\"";
}
}
TEST(Misc, idn_to_ascii) {
test_idn_to_ascii_one("::::::::::::::::::::::::::::::::::::::@/", "::::::::::::::::::::::::::::::::::::::@/");
test_idn_to_ascii_one("", "");
test_idn_to_ascii_one("%30", "%30");
test_idn_to_ascii_one("127.0.0.1", "127.0.0.1");
test_idn_to_ascii_one("fe80::", "fe80::");
test_idn_to_ascii_one("fe80:0:0:0:200:f8ff:fe21:67cf", "fe80:0:0:0:200:f8ff:fe21:67cf");
test_idn_to_ascii_one("2001:0db8:11a3:09d7:1f34:8a2e:07a0:765d", "2001:0db8:11a3:09d7:1f34:8a2e:07a0:765d");
test_idn_to_ascii_one("::ffff:192.0.2.1", "::ffff:192.0.2.1");
test_idn_to_ascii_one("ABCDEF", "abcdef");
test_idn_to_ascii_one("abcdef", "abcdef");
test_idn_to_ascii_one("abæcdöef", "xn--abcdef-qua4k");
test_idn_to_ascii_one("schön", "xn--schn-7qa");
test_idn_to_ascii_one("ยจฆฟคฏข", "xn--22cdfh1b8fsa");
test_idn_to_ascii_one("", "xn--74h");
test_idn_to_ascii_one("правда", "xn--80aafi6cg");
test_idn_to_ascii_one("büücher", "xn--bcher-kvaa");
test_idn_to_ascii_one("BüüCHER", "xn--bcher-kvaa");
test_idn_to_ascii_one("bücüher", "xn--bcher-kvab");
test_idn_to_ascii_one("bücherü", "xn--bcher-kvae");
test_idn_to_ascii_one("ýbücher", "xn--bcher-kvaf");
test_idn_to_ascii_one("übücher", "xn--bcher-jvab");
test_idn_to_ascii_one("bücher.tld", "xn--bcher-kva.tld");
test_idn_to_ascii_one("кто.рф", "xn--j1ail.xn--p1ai");
test_idn_to_ascii_one("wіkіреdіа.org", "xn--wkd-8cdx9d7hbd.org");
test_idn_to_ascii_one("cnwin2k8中国.avol.com", "xn--cnwin2k8-sd0mx14e.avol.com");
test_idn_to_ascii_one("win-2k12r2-addc.阿伯测阿伯测ad.hai.com", "win-2k12r2-addc.xn--ad-tl3ca3569aba8944eca.hai.com");
test_idn_to_ascii_one("✌.ws", "xn--7bi.ws");
// test_idn_to_ascii_one("✌️.ws", "xn--7bi.ws"); // needs nameprep to succeed
test_idn_to_ascii_one("", "xn--59h");
test_idn_to_ascii_one("--рф.рф", "xn-----mmcq.xn--p1ai");
ASSERT_TRUE(idn_to_ascii("\xc0").is_error());
}
#if TD_WINDOWS
static void test_to_wstring_one(string str) {
ASSERT_STREQ(str, from_wstring(to_wstring(str).ok()).ok());
}
TEST(Misc, to_wstring) {
test_to_wstring_one("");
for (int i = 0; i < 10; i++) {
test_to_wstring_one("test");
test_to_wstring_one("тест");
}
string str;
for (uint32 i = 0; i <= 0xD7FF; i++) {
append_utf8_character(str, i);
}
for (uint32 i = 0xE000; i <= 0x10FFFF; i++) {
append_utf8_character(str, i);
}
test_to_wstring_one(str);
ASSERT_TRUE(to_wstring("\xc0").is_error());
auto emoji = to_wstring("🏟").ok();
ASSERT_TRUE(from_wstring(emoji).ok() == "🏟");
ASSERT_TRUE(emoji.size() == 2);
auto emoji2 = emoji;
emoji[0] = emoji[1];
emoji2[1] = emoji2[0];
ASSERT_TRUE(from_wstring(emoji).is_error());
ASSERT_TRUE(from_wstring(emoji2).is_error());
emoji2[0] = emoji[0];
ASSERT_TRUE(from_wstring(emoji2).is_error());
}
#endif
static void test_translit(string word, vector<string> result, bool allow_partial = true) {
ASSERT_EQ(result, get_word_transliterations(word, allow_partial));
}
TEST(Misc, translit) {
test_translit("word", {"word", "ворд"});
test_translit("", {});
test_translit("ььььььььь", {"ььььььььь"});
test_translit("крыло", {"krylo", "крыло"});
test_translit("krylo", {"krylo", "крило"});
test_translit("crylo", {"crylo", "крило"});
test_translit("cheiia", {"cheiia", "кхеииа", "чейия"});
test_translit("cheii", {"cheii", "кхеии", "чейи", "чейий", "чейия"});
test_translit("s", {"s", "с", "ш", "щ"});
test_translit("y", {"e", "y", "е", "и", "ю", "я"});
test_translit("j", {"e", "j", "е", "й", "ю", "я"});
test_translit("yo", {"e", "yo", "е", "ио"});
test_translit("artjom", {"artem", "artjom", "артем", "артйом"});
test_translit("artyom", {"artem", "artyom", "артем", "артиом"});
test_translit("arty", {"arte", "arty", "арте", "арти", "артю", "артя"});
test_translit("льи", {"li", "lia", "ly", "льи"});
test_translit("y", {"y", "и"}, false);
test_translit("yo", {"e", "yo", "е", "ио"}, false);
}
static void test_unicode(uint32 (*func)(uint32)) {
for (uint32 i = 0; i <= 0x110000; i++) {
auto res = func(i);
CHECK(res <= 0x10ffff);
}
}
TEST(Misc, unicode) {
test_unicode(prepare_search_character);
test_unicode(unicode_to_lower);
test_unicode(remove_diacritics);
}
TEST(BigNum, from_decimal) {
ASSERT_TRUE(BigNum::from_decimal("").is_error());
ASSERT_TRUE(BigNum::from_decimal("a").is_error());
ASSERT_TRUE(BigNum::from_decimal("123a").is_error());
ASSERT_TRUE(BigNum::from_decimal("-123a").is_error());
// ASSERT_TRUE(BigNum::from_decimal("-").is_error());
ASSERT_TRUE(BigNum::from_decimal("123").is_ok());
ASSERT_TRUE(BigNum::from_decimal("-123").is_ok());
ASSERT_TRUE(BigNum::from_decimal("0").is_ok());
ASSERT_TRUE(BigNum::from_decimal("-0").is_ok());
ASSERT_TRUE(BigNum::from_decimal("-999999999999999999999999999999999999999999999999").is_ok());
ASSERT_TRUE(BigNum::from_decimal("999999999999999999999999999999999999999999999999").is_ok());
}
TEST(BigNum, from_binary) {
ASSERT_STREQ(BigNum::from_binary("").to_decimal(), "0");
ASSERT_STREQ(BigNum::from_binary("a").to_decimal(), "97");
ASSERT_STREQ(BigNum::from_binary("\x00\xff").to_decimal(), "255");
ASSERT_STREQ(BigNum::from_binary("\x00\x01\x00\x00").to_decimal(), "65536");
ASSERT_STREQ(BigNum::from_le_binary("").to_decimal(), "0");
ASSERT_STREQ(BigNum::from_le_binary("a").to_decimal(), "97");
ASSERT_STREQ(BigNum::from_le_binary("\x00\xff").to_decimal(), "65280");
ASSERT_STREQ(BigNum::from_le_binary("\x00\x01\x00\x00").to_decimal(), "256");
ASSERT_STREQ(BigNum::from_decimal("255").move_as_ok().to_binary(), "\xff");
ASSERT_STREQ(BigNum::from_decimal("255").move_as_ok().to_le_binary(), "\xff");
ASSERT_STREQ(BigNum::from_decimal("255").move_as_ok().to_binary(2), "\x00\xff");
ASSERT_STREQ(BigNum::from_decimal("255").move_as_ok().to_le_binary(2), "\xff\x00");
ASSERT_STREQ(BigNum::from_decimal("65280").move_as_ok().to_binary(), "\xff\x00");
ASSERT_STREQ(BigNum::from_decimal("65280").move_as_ok().to_le_binary(), "\x00\xff");
ASSERT_STREQ(BigNum::from_decimal("65280").move_as_ok().to_binary(2), "\xff\x00");
ASSERT_STREQ(BigNum::from_decimal("65280").move_as_ok().to_le_binary(2), "\x00\xff");
ASSERT_STREQ(BigNum::from_decimal("65536").move_as_ok().to_binary(), "\x01\x00\x00");
ASSERT_STREQ(BigNum::from_decimal("65536").move_as_ok().to_le_binary(), "\x00\x00\x01");
ASSERT_STREQ(BigNum::from_decimal("65536").move_as_ok().to_binary(4), "\x00\x01\x00\x00");
ASSERT_STREQ(BigNum::from_decimal("65536").move_as_ok().to_le_binary(4), "\x00\x00\x01\x00");
}
static void test_get_ipv4(uint32 ip) {
td::IPAddress ip_address;
ip_address.init_ipv4_port(td::IPAddress::ipv4_to_str(ip), 80).ensure();
ASSERT_EQ(ip_address.get_ipv4(), ip);
}
TEST(Misc, IPAddress_get_ipv4) {
test_get_ipv4(0x00000000);
test_get_ipv4(0x010000FF);
test_get_ipv4(0xFF000001);
test_get_ipv4(0x01020304);
test_get_ipv4(0x04030201);
test_get_ipv4(0xFFFFFFFF);
}
static void test_is_reserved(string ip, bool is_reserved) {
IPAddress ip_address;
ip_address.init_ipv4_port(ip, 80).ensure();
ASSERT_EQ(is_reserved, ip_address.is_reserved());
}
TEST(Misc, IPAddress_is_reserved) {
test_is_reserved("0.0.0.0", true);
test_is_reserved("0.255.255.255", true);
test_is_reserved("1.0.0.0", false);
test_is_reserved("5.0.0.0", false);
test_is_reserved("9.255.255.255", false);
test_is_reserved("10.0.0.0", true);
test_is_reserved("10.255.255.255", true);
test_is_reserved("11.0.0.0", false);
test_is_reserved("100.63.255.255", false);
test_is_reserved("100.64.0.0", true);
test_is_reserved("100.127.255.255", true);
test_is_reserved("100.128.0.0", false);
test_is_reserved("126.255.255.255", false);
test_is_reserved("127.0.0.0", true);
test_is_reserved("127.255.255.255", true);
test_is_reserved("128.0.0.0", false);
test_is_reserved("169.253.255.255", false);
test_is_reserved("169.254.0.0", true);
test_is_reserved("169.254.255.255", true);
test_is_reserved("169.255.0.0", false);
test_is_reserved("172.15.255.255", false);
test_is_reserved("172.16.0.0", true);
test_is_reserved("172.31.255.255", true);
test_is_reserved("172.32.0.0", false);
test_is_reserved("191.255.255.255", false);
test_is_reserved("192.0.0.0", true);
test_is_reserved("192.0.0.255", true);
test_is_reserved("192.0.1.0", false);
test_is_reserved("192.0.1.255", false);
test_is_reserved("192.0.2.0", true);
test_is_reserved("192.0.2.255", true);
test_is_reserved("192.0.3.0", false);
test_is_reserved("192.88.98.255", false);
test_is_reserved("192.88.99.0", true);
test_is_reserved("192.88.99.255", true);
test_is_reserved("192.88.100.0", false);
test_is_reserved("192.167.255.255", false);
test_is_reserved("192.168.0.0", true);
test_is_reserved("192.168.255.255", true);
test_is_reserved("192.169.0.0", false);
test_is_reserved("198.17.255.255", false);
test_is_reserved("198.18.0.0", true);
test_is_reserved("198.19.255.255", true);
test_is_reserved("198.20.0.0", false);
test_is_reserved("198.51.99.255", false);
test_is_reserved("198.51.100.0", true);
test_is_reserved("198.51.100.255", true);
test_is_reserved("198.51.101.0", false);
test_is_reserved("203.0.112.255", false);
test_is_reserved("203.0.113.0", true);
test_is_reserved("203.0.113.255", true);
test_is_reserved("203.0.114.0", false);
test_is_reserved("223.255.255.255", false);
test_is_reserved("224.0.0.0", true);
test_is_reserved("239.255.255.255", true);
test_is_reserved("240.0.0.0", true);
test_is_reserved("255.255.255.254", true);
test_is_reserved("255.255.255.255", true);
}
static void test_split(Slice str, std::pair<Slice, Slice> expected) {
ASSERT_EQ(expected, td::split(str));
}
TEST(Misc, split) {
test_split("", {"", ""});
test_split(" ", {"", ""});
test_split("abcdef", {"abcdef", ""});
test_split("abc def", {"abc", "def"});
test_split("a bcdef", {"a", "bcdef"});
test_split(" abcdef", {"", "abcdef"});
test_split("abcdef ", {"abcdef", ""});
test_split("ab cd ef", {"ab", "cd ef"});
test_split("ab cdef ", {"ab", "cdef "});
test_split(" abcd ef", {"", "abcd ef"});
test_split(" abcdef ", {"", "abcdef "});
}
static void test_full_split(Slice str, vector<Slice> expected) {
ASSERT_EQ(expected, td::full_split(str));
}
TEST(Misc, full_split) {
test_full_split("", {});
test_full_split(" ", {"", ""});
test_full_split(" ", {"", "", ""});
test_full_split("abcdef", {"abcdef"});
test_full_split("abc def", {"abc", "def"});
test_full_split("a bcdef", {"a", "bcdef"});
test_full_split(" abcdef", {"", "abcdef"});
test_full_split("abcdef ", {"abcdef", ""});
test_full_split("ab cd ef", {"ab", "cd", "ef"});
test_full_split("ab cdef ", {"ab", "cdef", ""});
test_full_split(" abcd ef", {"", "abcd", "ef"});
test_full_split(" abcdef ", {"", "abcdef", ""});
test_full_split(" ab cd ef ", {"", "ab", "cd", "ef", ""});
test_full_split(" ab cd ef ", {"", "", "ab", "", "cd", "", "ef", "", ""});
}
TEST(Misc, StringBuilder) {
auto small_str = std::string{"abcdefghij"};
auto big_str = std::string(1000, 'a');
using V = std::vector<std::string>;
for (auto use_buf : {false, true}) {
for (size_t initial_buffer_size : {0, 1, 5, 10, 100, 1000, 2000}) {
for (auto test : {V{small_str}, V{small_str, big_str, big_str, small_str}, V{big_str, small_str, big_str}}) {
std::string buf(initial_buffer_size, '\0');
td::StringBuilder sb(buf, use_buf);
std::string res;
for (auto x : test) {
res += x;
sb << x;
}
if (use_buf) {
ASSERT_EQ(res, sb.as_cslice());
} else {
auto got = sb.as_cslice();
res.resize(got.size());
ASSERT_EQ(res, got);
}
}
}
}
}
TEST(Misc, As) {
char buf[100];
as<int>(buf) = 123;
ASSERT_EQ(123, as<int>((const char *)buf));
ASSERT_EQ(123, as<int>((char *)buf));
char buf2[100];
as<int>(buf2) = as<int>(buf);
ASSERT_EQ(123, as<int>((const char *)buf2));
ASSERT_EQ(123, as<int>((char *)buf2));
}
TEST(Misc, Regression) {
string name = "regression_db";
RegressionTester::destroy(name);
{
auto tester = RegressionTester::create(name);
tester->save_db();
tester->verify_test("one_plus_one", "two").ensure();
tester->verify_test("one_plus_one", "two").ensure();
tester->verify_test("two_plus_one", "three").ensure();
tester->verify_test("one_plus_one", "two").ensure();
tester->verify_test("two_plus_one", "three").ensure();
tester->save_db();
}
{
auto tester = RegressionTester::create(name);
tester->save_db();
tester->verify_test("one_plus_one", "two").ensure();
tester->verify_test("one_plus_one", "two").ensure();
tester->verify_test("two_plus_one", "three").ensure();
tester->verify_test("one_plus_one", "two").ensure();
tester->verify_test("two_plus_one", "three").ensure();
tester->save_db();
tester->verify_test("one_plus_one", "three").ensure_error();
tester->verify_test("two_plus_one", "two").ensure_error();
}
{
auto tester = RegressionTester::create(name);
tester->verify_test("one_plus_one", "three").ensure_error();
tester->verify_test("two_plus_one", "two").ensure_error();
}
}
TEST(Misc, Bits) {
ASSERT_EQ(32, count_leading_zeroes32(0));
ASSERT_EQ(64, count_leading_zeroes64(0));
ASSERT_EQ(32, count_trailing_zeroes32(0));
ASSERT_EQ(64, count_trailing_zeroes64(0));
for (int i = 0; i < 32; i++) {
ASSERT_EQ(31 - i, count_leading_zeroes32(1u << i));
ASSERT_EQ(i, count_trailing_zeroes32(1u << i));
ASSERT_EQ(31 - i, count_leading_zeroes_non_zero32(1u << i));
ASSERT_EQ(i, count_trailing_zeroes_non_zero32(1u << i));
}
for (int i = 0; i < 64; i++) {
ASSERT_EQ(63 - i, count_leading_zeroes64(1ull << i));
ASSERT_EQ(i, count_trailing_zeroes64(1ull << i));
ASSERT_EQ(63 - i, count_leading_zeroes_non_zero64(1ull << i));
ASSERT_EQ(i, count_trailing_zeroes_non_zero64(1ull << i));
}
ASSERT_EQ(0x12345678u, td::bswap32(0x78563412u));
ASSERT_EQ(0x12345678abcdef67ull, td::bswap64(0x67efcdab78563412ull));
ASSERT_EQ(0, count_bits32(0));
ASSERT_EQ(0, count_bits64(0));
ASSERT_EQ(4, count_bits32((1u << 31) | 7));
ASSERT_EQ(4, count_bits64((1ull << 63) | 7));
}
#if !TD_THREAD_UNSUPPORTED
TEST(Misc, Time) {
Stage run;
Stage check;
Stage finish;
size_t threads_n = 3;
std::vector<thread> threads;
std::vector<std::atomic<double>> ts(threads_n);
for (size_t i = 0; i < threads_n; i++) {
threads.emplace_back([&, thread_id = i] {
for (uint64 round = 1; round < 100000; round++) {
ts[thread_id] = 0;
run.wait(round * threads_n);
ts[thread_id] = Time::now();
check.wait(round * threads_n);
for (auto &ts_ref : ts) {
auto other_ts = ts_ref.load();
if (other_ts != 0) {
ASSERT_TRUE(other_ts <= Time::now_cached());
}
}
finish.wait(round * threads_n);
}
});
}
for (auto &thread : threads) {
thread.join();
}
}
#endif
TEST(Misc, uint128) {
std::vector<uint64> parts = {0,
1,
2000,
2001,
std::numeric_limits<uint64>::max(),
std::numeric_limits<uint64>::max() - 1,
std::numeric_limits<uint32>::max(),
static_cast<uint64>(std::numeric_limits<uint32>::max()) + 1};
std::vector<int64> signed_parts = {0,
1,
2000,
2001,
-1,
-2000,
-2001,
std::numeric_limits<int64>::max(),
std::numeric_limits<int64>::max() - 1,
std::numeric_limits<int64>::min(),
std::numeric_limits<int64>::min() + 1,
std::numeric_limits<int32>::max(),
static_cast<int64>(std::numeric_limits<int32>::max()) + 1,
std::numeric_limits<int32>::max() - 1,
std::numeric_limits<int32>::min(),
std::numeric_limits<int32>::min() + 1,
static_cast<int64>(std::numeric_limits<int32>::min()) - 1};
#if TD_HAVE_INT128
auto to_intrinsic = [](uint128_emulated num) {
return uint128_intrinsic(num.hi(), num.lo());
};
auto eq = [](uint128_emulated a, uint128_intrinsic b) {
return a.hi() == b.hi() && a.lo() == b.lo();
};
auto ensure_eq = [&](uint128_emulated a, uint128_intrinsic b) {
if (!eq(a, b)) {
LOG(FATAL) << "[" << a.hi() << ";" << a.lo() << "] vs [" << b.hi() << ";" << b.lo() << "]";
}
};
#endif
std::vector<uint128_emulated> nums;
for (auto hi : parts) {
for (auto lo : parts) {
auto a = uint128_emulated(hi, lo);
#if TD_HAVE_INT128
auto ia = uint128_intrinsic(hi, lo);
ensure_eq(a, ia);
#endif
nums.push_back(a);
nums.pop_back();
nums.push_back({hi, lo});
}
}
#if TD_HAVE_INT128
for (auto a : nums) {
auto ia = to_intrinsic(a);
ensure_eq(a, ia);
CHECK(a.is_zero() == ia.is_zero());
for (int i = 0; i <= 130; i++) {
ensure_eq(a.shl(i), ia.shl(i));
ensure_eq(a.shr(i), ia.shr(i));
}
for (auto b : parts) {
ensure_eq(a.mult(b), ia.mult(b));
}
for (auto b : signed_parts) {
ensure_eq(a.mult_signed(b), ia.mult_signed(b));
if (b == 0) {
continue;
}
int64 q, r;
a.divmod_signed(b, &q, &r);
int64 iq, ir;
ia.divmod_signed(b, &iq, &ir);
ASSERT_EQ(q, iq);
ASSERT_EQ(r, ir);
}
for (auto b : nums) {
auto ib = to_intrinsic(b);
//LOG(ERROR) << ia.hi() << ";" << ia.lo() << " " << ib.hi() << ";" << ib.lo();
ensure_eq(a.mult(b), ia.mult(ib));
ensure_eq(a.add(b), ia.add(ib));
ensure_eq(a.sub(b), ia.sub(ib));
if (!b.is_zero()) {
ensure_eq(a.div(b), ia.div(ib));
ensure_eq(a.mod(b), ia.mod(ib));
}
}
}
for (auto signed_part : signed_parts) {
auto a = uint128_emulated::from_signed(signed_part);
auto ia = uint128_intrinsic::from_signed(signed_part);
ensure_eq(a, ia);
}
#endif
}
template <template <class T> class HashT, class ValueT>
Status test_hash(const std::vector<ValueT> &values) {
for (size_t i = 0; i < values.size(); i++) {
for (size_t j = i; j < values.size(); j++) {
auto &a = values[i];
auto &b = values[j];
auto a_hash = HashT<ValueT>()(a);
auto b_hash = HashT<ValueT>()(b);
if (a == b) {
if (a_hash != b_hash) {
return Status::Error("Hash differs for same values");
}
} else {
if (a_hash == b_hash) {
return Status::Error("Hash is the same for different values");
}
}
}
}
return Status::OK();
}
class BadValue {
public:
explicit BadValue(size_t value) : value_(value) {
}
template <class H>
friend H AbslHashValue(H hasher, const BadValue &value) {
return hasher;
}
bool operator==(const BadValue &other) const {
return value_ == other.value_;
}
private:
size_t value_;
};
class ValueA {
public:
explicit ValueA(size_t value) : value_(value) {
}
template <class H>
friend H AbslHashValue(H hasher, ValueA value) {
return H::combine(std::move(hasher), value.value_);
}
bool operator==(const ValueA &other) const {
return value_ == other.value_;
}
private:
size_t value_;
};
class ValueB {
public:
explicit ValueB(size_t value) : value_(value) {
}
template <class H>
friend H AbslHashValue(H hasher, ValueB value) {
return H::combine(std::move(hasher), value.value_);
}
bool operator==(const ValueB &other) const {
return value_ == other.value_;
}
private:
size_t value_;
};
template <template <class T> class HashT>
static void test_hash() {
// Just check that the following compiles
AbslHashValue(Hasher(), ValueA{1});
HashT<ValueA>()(ValueA{1});
std::unordered_map<ValueA, int, HashT<ValueA>> s;
s[ValueA{1}] = 1;
HashMap<ValueA, int> su;
su[ValueA{1}] = 1;
HashSet<ValueA> su2;
su2.insert(ValueA{1});
#if TD_HAVE_ABSL
std::unordered_map<ValueA, int, absl::Hash<ValueA>> x;
absl::flat_hash_map<ValueA, int, HashT<ValueA>> sa;
sa[ValueA{1}] = 1;
#endif
test_hash<HashT, size_t>({1, 2, 3, 4, 5}).ensure();
test_hash<HashT, BadValue>({BadValue{1}, BadValue{2}}).ensure_error();
test_hash<HashT, ValueA>({ValueA{1}, ValueA{2}}).ensure();
test_hash<HashT, ValueB>({ValueB{1}, ValueB{2}}).ensure();
test_hash<HashT, std::pair<int, int>>({{1, 1}, {1, 2}}).ensure();
// FIXME: use some better hash
//test_hash<HashT, std::pair<int, int>>({{1, 1}, {1, 2}, {2, 1}, {2, 2}}).ensure();
}
TEST(Misc, Hasher) {
test_hash<TdHash>();
#if TD_HAVE_ABSL
test_hash<AbslHash>();
#endif
}
TEST(Misc, CancellationToken) {
CancellationTokenSource source;
source.cancel();
auto token1 = source.get_cancellation_token();
auto token2 = source.get_cancellation_token();
CHECK(!token1);
source.cancel();
CHECK(token1);
CHECK(token2);
auto token3 = source.get_cancellation_token();
CHECK(!token3);
source.cancel();
CHECK(token3);
auto token4 = source.get_cancellation_token();
CHECK(!token4);
source = CancellationTokenSource{};
CHECK(token4);
}