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e0036e9f0e
neobytes/src/test/util_tests.cpp
Wladimir J. van der Laan 72ae546dd4
Remove dummy PRIszX macros for formatting 
Size specifiers are no longer needed now that we use typesafe tinyformat
for string formatting, instead of the system's sprintf.

No functional changes.

This continues the work in #3735.

Rebased-By: Wladimir J. van der Laan <laanwj@gmail.com>
Rebased-From: 783b182
2014-05-12 14:02:43 +02:00

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// Copyright (c) 2011-2014 The Bitcoin Core developers
// Distributed under the MIT/X11 software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include "util.h"
#include "sync.h"
#include <stdint.h>
#include <vector>
#include <boost/test/unit_test.hpp>
using namespace std;
BOOST_AUTO_TEST_SUITE(util_tests)
BOOST_AUTO_TEST_CASE(util_criticalsection)
{
CCriticalSection cs;
do {
LOCK(cs);
break;
BOOST_ERROR("break was swallowed!");
} while(0);
do {
TRY_LOCK(cs, lockTest);
if (lockTest)
break;
BOOST_ERROR("break was swallowed!");
} while(0);
}
BOOST_AUTO_TEST_CASE(util_MedianFilter)
{
CMedianFilter<int> filter(5, 15);
BOOST_CHECK_EQUAL(filter.median(), 15);
filter.input(20); // [15 20]
BOOST_CHECK_EQUAL(filter.median(), 17);
filter.input(30); // [15 20 30]
BOOST_CHECK_EQUAL(filter.median(), 20);
filter.input(3); // [3 15 20 30]
BOOST_CHECK_EQUAL(filter.median(), 17);
filter.input(7); // [3 7 15 20 30]
BOOST_CHECK_EQUAL(filter.median(), 15);
filter.input(18); // [3 7 18 20 30]
BOOST_CHECK_EQUAL(filter.median(), 18);
filter.input(0); // [0 3 7 18 30]
BOOST_CHECK_EQUAL(filter.median(), 7);
}
static const unsigned char ParseHex_expected[65] = {
0x04, 0x67, 0x8a, 0xfd, 0xb0, 0xfe, 0x55, 0x48, 0x27, 0x19, 0x67, 0xf1, 0xa6, 0x71, 0x30, 0xb7,
0x10, 0x5c, 0xd6, 0xa8, 0x28, 0xe0, 0x39, 0x09, 0xa6, 0x79, 0x62, 0xe0, 0xea, 0x1f, 0x61, 0xde,
0xb6, 0x49, 0xf6, 0xbc, 0x3f, 0x4c, 0xef, 0x38, 0xc4, 0xf3, 0x55, 0x04, 0xe5, 0x1e, 0xc1, 0x12,
0xde, 0x5c, 0x38, 0x4d, 0xf7, 0xba, 0x0b, 0x8d, 0x57, 0x8a, 0x4c, 0x70, 0x2b, 0x6b, 0xf1, 0x1d,
0x5f
};
BOOST_AUTO_TEST_CASE(util_ParseHex)
{
std::vector<unsigned char> result;
std::vector<unsigned char> expected(ParseHex_expected, ParseHex_expected + sizeof(ParseHex_expected));
// Basic test vector
result = ParseHex("04678afdb0fe5548271967f1a67130b7105cd6a828e03909a67962e0ea1f61deb649f6bc3f4cef38c4f35504e51ec112de5c384df7ba0b8d578a4c702b6bf11d5f");
BOOST_CHECK_EQUAL_COLLECTIONS(result.begin(), result.end(), expected.begin(), expected.end());
// Spaces between bytes must be supported
result = ParseHex("12 34 56 78");
BOOST_CHECK(result.size() == 4 && result[0] == 0x12 && result[1] == 0x34 && result[2] == 0x56 && result[3] == 0x78);
// Stop parsing at invalid value
result = ParseHex("1234 invalid 1234");
BOOST_CHECK(result.size() == 2 && result[0] == 0x12 && result[1] == 0x34);
}
BOOST_AUTO_TEST_CASE(util_HexStr)
{
BOOST_CHECK_EQUAL(
HexStr(ParseHex_expected, ParseHex_expected + sizeof(ParseHex_expected)),
"04678afdb0fe5548271967f1a67130b7105cd6a828e03909a67962e0ea1f61deb649f6bc3f4cef38c4f35504e51ec112de5c384df7ba0b8d578a4c702b6bf11d5f");
BOOST_CHECK_EQUAL(
HexStr(ParseHex_expected, ParseHex_expected + 5, true),
"04 67 8a fd b0");
BOOST_CHECK_EQUAL(
HexStr(ParseHex_expected, ParseHex_expected, true),
"");
std::vector<unsigned char> ParseHex_vec(ParseHex_expected, ParseHex_expected + 5);
BOOST_CHECK_EQUAL(
HexStr(ParseHex_vec, true),
"04 67 8a fd b0");
}
BOOST_AUTO_TEST_CASE(util_DateTimeStrFormat)
{
/*These are platform-dependant and thus removed to avoid useless test failures
BOOST_CHECK_EQUAL(DateTimeStrFormat("%Y-%m-%d %H:%M:%S", 0), "1970-01-01 00:00:00");
BOOST_CHECK_EQUAL(DateTimeStrFormat("%Y-%m-%d %H:%M:%S", 0x7FFFFFFF), "2038-01-19 03:14:07");
// Formats used within Bitcoin
BOOST_CHECK_EQUAL(DateTimeStrFormat("%Y-%m-%d %H:%M:%S", 1317425777), "2011-09-30 23:36:17");
BOOST_CHECK_EQUAL(DateTimeStrFormat("%Y-%m-%d %H:%M", 1317425777), "2011-09-30 23:36");
*/
}
BOOST_AUTO_TEST_CASE(util_ParseParameters)
{
const char *argv_test[] = {"-ignored", "-a", "-b", "-ccc=argument", "-ccc=multiple", "f", "-d=e"};
ParseParameters(0, (char**)argv_test);
BOOST_CHECK(mapArgs.empty() && mapMultiArgs.empty());
ParseParameters(1, (char**)argv_test);
BOOST_CHECK(mapArgs.empty() && mapMultiArgs.empty());
ParseParameters(5, (char**)argv_test);
// expectation: -ignored is ignored (program name argument),
// -a, -b and -ccc end up in map, -d ignored because it is after
// a non-option argument (non-GNU option parsing)
BOOST_CHECK(mapArgs.size() == 3 && mapMultiArgs.size() == 3);
BOOST_CHECK(mapArgs.count("-a") && mapArgs.count("-b") && mapArgs.count("-ccc")
&& !mapArgs.count("f") && !mapArgs.count("-d"));
BOOST_CHECK(mapMultiArgs.count("-a") && mapMultiArgs.count("-b") && mapMultiArgs.count("-ccc")
&& !mapMultiArgs.count("f") && !mapMultiArgs.count("-d"));
BOOST_CHECK(mapArgs["-a"] == "" && mapArgs["-ccc"] == "multiple");
BOOST_CHECK(mapMultiArgs["-ccc"].size() == 2);
}
BOOST_AUTO_TEST_CASE(util_GetArg)
{
mapArgs.clear();
mapArgs["strtest1"] = "string...";
// strtest2 undefined on purpose
mapArgs["inttest1"] = "12345";
mapArgs["inttest2"] = "81985529216486895";
// inttest3 undefined on purpose
mapArgs["booltest1"] = "";
// booltest2 undefined on purpose
mapArgs["booltest3"] = "0";
mapArgs["booltest4"] = "1";
BOOST_CHECK_EQUAL(GetArg("strtest1", "default"), "string...");
BOOST_CHECK_EQUAL(GetArg("strtest2", "default"), "default");
BOOST_CHECK_EQUAL(GetArg("inttest1", -1), 12345);
BOOST_CHECK_EQUAL(GetArg("inttest2", -1), 81985529216486895LL);
BOOST_CHECK_EQUAL(GetArg("inttest3", -1), -1);
BOOST_CHECK_EQUAL(GetBoolArg("booltest1", false), true);
BOOST_CHECK_EQUAL(GetBoolArg("booltest2", false), false);
BOOST_CHECK_EQUAL(GetBoolArg("booltest3", false), false);
BOOST_CHECK_EQUAL(GetBoolArg("booltest4", false), true);
}
BOOST_AUTO_TEST_CASE(util_WildcardMatch)
{
BOOST_CHECK(WildcardMatch("127.0.0.1", "*"));
BOOST_CHECK(WildcardMatch("127.0.0.1", "127.*"));
BOOST_CHECK(WildcardMatch("abcdef", "a?cde?"));
BOOST_CHECK(!WildcardMatch("abcdef", "a?cde??"));
BOOST_CHECK(WildcardMatch("abcdef", "a*f"));
BOOST_CHECK(!WildcardMatch("abcdef", "a*x"));
BOOST_CHECK(WildcardMatch("", "*"));
}
BOOST_AUTO_TEST_CASE(util_FormatMoney)
{
BOOST_CHECK_EQUAL(FormatMoney(0, false), "0.00");
BOOST_CHECK_EQUAL(FormatMoney((COIN/10000)*123456789, false), "12345.6789");
BOOST_CHECK_EQUAL(FormatMoney(COIN, true), "+1.00");
BOOST_CHECK_EQUAL(FormatMoney(-COIN, false), "-1.00");
BOOST_CHECK_EQUAL(FormatMoney(-COIN, true), "-1.00");
BOOST_CHECK_EQUAL(FormatMoney(COIN*100000000, false), "100000000.00");
BOOST_CHECK_EQUAL(FormatMoney(COIN*10000000, false), "10000000.00");
BOOST_CHECK_EQUAL(FormatMoney(COIN*1000000, false), "1000000.00");
BOOST_CHECK_EQUAL(FormatMoney(COIN*100000, false), "100000.00");
BOOST_CHECK_EQUAL(FormatMoney(COIN*10000, false), "10000.00");
BOOST_CHECK_EQUAL(FormatMoney(COIN*1000, false), "1000.00");
BOOST_CHECK_EQUAL(FormatMoney(COIN*100, false), "100.00");
BOOST_CHECK_EQUAL(FormatMoney(COIN*10, false), "10.00");
BOOST_CHECK_EQUAL(FormatMoney(COIN, false), "1.00");
BOOST_CHECK_EQUAL(FormatMoney(COIN/10, false), "0.10");
BOOST_CHECK_EQUAL(FormatMoney(COIN/100, false), "0.01");
BOOST_CHECK_EQUAL(FormatMoney(COIN/1000, false), "0.001");
BOOST_CHECK_EQUAL(FormatMoney(COIN/10000, false), "0.0001");
BOOST_CHECK_EQUAL(FormatMoney(COIN/100000, false), "0.00001");
BOOST_CHECK_EQUAL(FormatMoney(COIN/1000000, false), "0.000001");
BOOST_CHECK_EQUAL(FormatMoney(COIN/10000000, false), "0.0000001");
BOOST_CHECK_EQUAL(FormatMoney(COIN/100000000, false), "0.00000001");
}
BOOST_AUTO_TEST_CASE(util_ParseMoney)
{
int64_t ret = 0;
BOOST_CHECK(ParseMoney("0.0", ret));
BOOST_CHECK_EQUAL(ret, 0);
BOOST_CHECK(ParseMoney("12345.6789", ret));
BOOST_CHECK_EQUAL(ret, (COIN/10000)*123456789);
BOOST_CHECK(ParseMoney("100000000.00", ret));
BOOST_CHECK_EQUAL(ret, COIN*100000000);
BOOST_CHECK(ParseMoney("10000000.00", ret));
BOOST_CHECK_EQUAL(ret, COIN*10000000);
BOOST_CHECK(ParseMoney("1000000.00", ret));
BOOST_CHECK_EQUAL(ret, COIN*1000000);
BOOST_CHECK(ParseMoney("100000.00", ret));
BOOST_CHECK_EQUAL(ret, COIN*100000);
BOOST_CHECK(ParseMoney("10000.00", ret));
BOOST_CHECK_EQUAL(ret, COIN*10000);
BOOST_CHECK(ParseMoney("1000.00", ret));
BOOST_CHECK_EQUAL(ret, COIN*1000);
BOOST_CHECK(ParseMoney("100.00", ret));
BOOST_CHECK_EQUAL(ret, COIN*100);
BOOST_CHECK(ParseMoney("10.00", ret));
BOOST_CHECK_EQUAL(ret, COIN*10);
BOOST_CHECK(ParseMoney("1.00", ret));
BOOST_CHECK_EQUAL(ret, COIN);
BOOST_CHECK(ParseMoney("0.1", ret));
BOOST_CHECK_EQUAL(ret, COIN/10);
BOOST_CHECK(ParseMoney("0.01", ret));
BOOST_CHECK_EQUAL(ret, COIN/100);
BOOST_CHECK(ParseMoney("0.001", ret));
BOOST_CHECK_EQUAL(ret, COIN/1000);
BOOST_CHECK(ParseMoney("0.0001", ret));
BOOST_CHECK_EQUAL(ret, COIN/10000);
BOOST_CHECK(ParseMoney("0.00001", ret));
BOOST_CHECK_EQUAL(ret, COIN/100000);
BOOST_CHECK(ParseMoney("0.000001", ret));
BOOST_CHECK_EQUAL(ret, COIN/1000000);
BOOST_CHECK(ParseMoney("0.0000001", ret));
BOOST_CHECK_EQUAL(ret, COIN/10000000);
BOOST_CHECK(ParseMoney("0.00000001", ret));
BOOST_CHECK_EQUAL(ret, COIN/100000000);
// Attempted 63 bit overflow should fail
BOOST_CHECK(!ParseMoney("92233720368.54775808", ret));
}
BOOST_AUTO_TEST_CASE(util_IsHex)
{
BOOST_CHECK(IsHex("00"));
BOOST_CHECK(IsHex("00112233445566778899aabbccddeeffAABBCCDDEEFF"));
BOOST_CHECK(IsHex("ff"));
BOOST_CHECK(IsHex("FF"));
BOOST_CHECK(!IsHex(""));
BOOST_CHECK(!IsHex("0"));
BOOST_CHECK(!IsHex("a"));
BOOST_CHECK(!IsHex("eleven"));
BOOST_CHECK(!IsHex("00xx00"));
BOOST_CHECK(!IsHex("0x0000"));
}
BOOST_AUTO_TEST_CASE(util_seed_insecure_rand)
{
int i;
int count=0;
seed_insecure_rand(true);
for (int mod=2;mod<11;mod++)
{
int mask = 1;
// Really rough binomal confidence approximation.
int err = 30*10000./mod*sqrt((1./mod*(1-1./mod))/10000.);
//mask is 2^ceil(log2(mod))-1
while(mask<mod-1)mask=(mask<<1)+1;
count = 0;
//How often does it get a zero from the uniform range [0,mod)?
for (i=0;i<10000;i++)
{
uint32_t rval;
do{
rval=insecure_rand()&mask;
}while(rval>=(uint32_t)mod);
count += rval==0;
}
BOOST_CHECK(count<=10000/mod+err);
BOOST_CHECK(count>=10000/mod-err);
}
}
BOOST_AUTO_TEST_CASE(util_TimingResistantEqual)
{
BOOST_CHECK(TimingResistantEqual(std::string(""), std::string("")));
BOOST_CHECK(!TimingResistantEqual(std::string("abc"), std::string("")));
BOOST_CHECK(!TimingResistantEqual(std::string(""), std::string("abc")));
BOOST_CHECK(!TimingResistantEqual(std::string("a"), std::string("aa")));
BOOST_CHECK(!TimingResistantEqual(std::string("aa"), std::string("a")));
BOOST_CHECK(TimingResistantEqual(std::string("abc"), std::string("abc")));
BOOST_CHECK(!TimingResistantEqual(std::string("abc"), std::string("aba")));
}
/* Test strprintf formatting directives.
* Put a string before and after to ensure sanity of element sizes on stack. */
#define B "check_prefix"
#define E "check_postfix"
BOOST_AUTO_TEST_CASE(strprintf_numbers)
{
int64_t s64t = -9223372036854775807LL; /* signed 64 bit test value */
uint64_t u64t = 18446744073709551615ULL; /* unsigned 64 bit test value */
BOOST_CHECK(strprintf("%s %d %s", B, s64t, E) == B" -9223372036854775807 "E);
BOOST_CHECK(strprintf("%s %u %s", B, u64t, E) == B" 18446744073709551615 "E);
BOOST_CHECK(strprintf("%s %x %s", B, u64t, E) == B" ffffffffffffffff "E);
size_t st = 12345678; /* unsigned size_t test value */
ssize_t sst = -12345678; /* signed size_t test value */
BOOST_CHECK(strprintf("%s %d %s", B, sst, E) == B" -12345678 "E);
BOOST_CHECK(strprintf("%s %u %s", B, st, E) == B" 12345678 "E);
BOOST_CHECK(strprintf("%s %x %s", B, st, E) == B" bc614e "E);
ptrdiff_t pt = 87654321; /* positive ptrdiff_t test value */
ptrdiff_t spt = -87654321; /* negative ptrdiff_t test value */
BOOST_CHECK(strprintf("%s %d %s", B, spt, E) == B" -87654321 "E);
BOOST_CHECK(strprintf("%s %u %s", B, pt, E) == B" 87654321 "E);
BOOST_CHECK(strprintf("%s %x %s", B, pt, E) == B" 5397fb1 "E);
}
#undef B
#undef E
/* Check for mingw/wine issue #3494
* Remove this test before time.ctime(0xffffffff) == 'Sun Feb 7 07:28:15 2106'
*/
BOOST_AUTO_TEST_CASE(gettime)
{
BOOST_CHECK((GetTime() & ~0xFFFFFFFFLL) == 0);
}
BOOST_AUTO_TEST_SUITE_END()
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