Sweden-Number/dlls/ntdll/tests/rtl.c

/* Unit test suite for Rtl* API functions
 *
 * Copyright 2003 Thomas Mertes
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 *
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 *
 * NOTES
 * We use function pointers here as there is no import library for NTDLL on
 * windows.
 */

#include <stdlib.h>

#include "winbase.h"
#include "wine/test.h"
#include "winnt.h"
#include "winnls.h"
#include "winternl.h"

/* Function ptrs for ntdll calls */
static HMODULE hntdll = 0;
static SIZE_T    (WINAPI *pRtlCompareMemoryUlong)(PULONG, SIZE_T, ULONG);
static ULONG     (WINAPI *pRtlUniform)(PULONG);


static void InitFunctionPtrs(void)
{
    hntdll = LoadLibraryA("ntdll.dll");
    ok(hntdll != 0, "LoadLibrary failed");
    if (hntdll) {
	pRtlCompareMemoryUlong = (void *)GetProcAddress(hntdll, "RtlCompareMemoryUlong");
	pRtlUniform = (void *)GetProcAddress(hntdll, "RtlUniform");
    } /* if */
}


static void test_RtlCompareMemoryUlong(void)
{
    ULONG a[10];
    ULONG result;

    a[0]= 0x0123;
    a[1]= 0x4567;
    a[2]= 0x89ab;
    a[3]= 0xcdef;
    result = pRtlCompareMemoryUlong(a, 0, 0x0123);
    ok(result == 0, "RtlCompareMemoryUlong(%p, 0, 0x0123) returns %lu, expected 0\n", a, result);
    result = pRtlCompareMemoryUlong(a, 3, 0x0123);
    ok(result == 0, "RtlCompareMemoryUlong(%p, 3, 0x0123) returns %lu, expected 0\n", a, result);
    result = pRtlCompareMemoryUlong(a, 4, 0x0123);
    ok(result == 4, "RtlCompareMemoryUlong(%p, 4, 0x0123) returns %lu, expected 4\n", a, result);
    result = pRtlCompareMemoryUlong(a, 5, 0x0123);
    ok(result == 4, "RtlCompareMemoryUlong(%p, 5, 0x0123) returns %lu, expected 4\n", a, result);
    result = pRtlCompareMemoryUlong(a, 7, 0x0123);
    ok(result == 4, "RtlCompareMemoryUlong(%p, 7, 0x0123) returns %lu, expected 4\n", a, result);
    result = pRtlCompareMemoryUlong(a, 8, 0x0123);
    ok(result == 4, "RtlCompareMemoryUlong(%p, 8, 0x0123) returns %lu, expected 4\n", a, result);
    result = pRtlCompareMemoryUlong(a, 9, 0x0123);
    ok(result == 4, "RtlCompareMemoryUlong(%p, 9, 0x0123) returns %lu, expected 4\n", a, result);
    result = pRtlCompareMemoryUlong(a, 4, 0x0127);
    ok(result == 0, "RtlCompareMemoryUlong(%p, 4, 0x0127) returns %lu, expected 0\n", a, result);
    result = pRtlCompareMemoryUlong(a, 4, 0x7123);
    ok(result == 0, "RtlCompareMemoryUlong(%p, 4, 0x7123) returns %lu, expected 0\n", a, result);
    result = pRtlCompareMemoryUlong(a, 16, 0x4567);
    ok(result == 0, "RtlCompareMemoryUlong(%p, 16, 0x4567) returns %lu, expected 0\n", a, result);

    a[1]= 0x0123;
    result = pRtlCompareMemoryUlong(a, 3, 0x0123);
    ok(result == 0, "RtlCompareMemoryUlong(%p, 3, 0x0123) returns %lu, expected 0\n", a, result);
    result = pRtlCompareMemoryUlong(a, 4, 0x0123);
    ok(result == 4, "RtlCompareMemoryUlong(%p, 4, 0x0123) returns %lu, expected 4\n", a, result);
    result = pRtlCompareMemoryUlong(a, 5, 0x0123);
    ok(result == 4, "RtlCompareMemoryUlong(%p, 5, 0x0123) returns %lu, expected 4\n", a, result);
    result = pRtlCompareMemoryUlong(a, 7, 0x0123);
    ok(result == 4, "RtlCompareMemoryUlong(%p, 7, 0x0123) returns %lu, expected 4\n", a, result);
    result = pRtlCompareMemoryUlong(a, 8, 0x0123);
    ok(result == 8, "RtlCompareMemoryUlong(%p, 8, 0x0123) returns %lu, expected 8\n", a, result);
    result = pRtlCompareMemoryUlong(a, 9, 0x0123);
    ok(result == 8, "RtlCompareMemoryUlong(%p, 9, 0x0123) returns %lu, expected 8\n", a, result);
}


static void test_RtlUniform(void)
{
    ULONGLONG num;
    ULONG seed;
    ULONG seed_bak;
    ULONG expected;
    ULONG result;

/*
 * According to the documentation RtlUniform is using D.H. Lehmer's 1948
 * algorithm. This algorithm is:
 *
 * seed = (seed * const_1 + const_2) % const_3;
 *
 * According to the documentation the random number is distributed over
 * [0..MAXLONG]. Therefore const_3 is MAXLONG + 1:
 *
 * seed = (seed * const_1 + const_2) % (MAXLONG + 1);
 *
 * Because MAXLONG is 0xfffffff (which is 0x10000000 - 1) the algorithm
 * can be expressed as:
 *
 * seed = (seed * const_1 + const_2) & MAXLONG;
 *
 * To find out const_2 we just call RtlUniform with seed set to 0:
 */
    seed = 0;
    expected = 0x7fffffc3;
    result = pRtlUniform(&seed);
    ok(result == expected,
        "RtlUniform(&seed (seed == 0)) returns %lx, expected %lx",
        result, expected);
/*
 * The algorithm is now:
 *
 * seed = (seed * const_1 + 0x7fffffc3) & MAXLONG;
 *
 * To find out const_1 we can use:
 *
 * const_1 = RtlUniform(1) - 0x7fffffc3;
 *
 * If that does not work a search loop can try all possible values of
 * const_1 and compare to the result to RtlUniform(1).
 * This way we find out that const_1 is 0xffffffed.
 *
 * For seed = 1 the const_2 is 0x7fffffc4:
 */
    seed = 1;
    expected = seed * 0xffffffed + 0x7fffffc3 + 1;
    result = pRtlUniform(&seed);
    ok(result == expected,
        "RtlUniform(&seed (seed == 1)) returns %lx, expected %lx",
        result, expected);
/*
 * For seed = 2 the const_2 is 0x7fffffc3:
 */
    seed = 2;
    expected = seed * 0xffffffed + 0x7fffffc3;
    result = pRtlUniform(&seed);
    ok(result == expected,
        "RtlUniform(&seed (seed == 2)) returns %lx, expected %lx",
        result, expected);
/*
 * More tests show that if seed is odd the result must be incremented by 1:
 */
    seed = 3;
    expected = seed * 0xffffffed + 0x7fffffc3 + (seed & 1);
    result = pRtlUniform(&seed);
    ok(result == expected,
        "RtlUniform(&seed (seed == 2)) returns %lx, expected %lx",
        result, expected);

    seed = 0x6bca1aa;
    expected = seed * 0xffffffed + 0x7fffffc3;
    result = pRtlUniform(&seed);
    ok(result == expected,
        "RtlUniform(&seed (seed == 0x6bca1aa)) returns %lx, expected %lx",
        result, expected);

    seed = 0x6bca1ab;
    expected = seed * 0xffffffed + 0x7fffffc3 + 1;
    result = pRtlUniform(&seed);
    ok(result == expected,
        "RtlUniform(&seed (seed == 0x6bca1ab)) returns %lx, expected %lx",
        result, expected);
/*
 * When seed is 0x6bca1ac there is an exception:
 */
    seed = 0x6bca1ac;
    expected = seed * 0xffffffed + 0x7fffffc3 + 2;
    result = pRtlUniform(&seed);
    ok(result == expected,
        "RtlUniform(&seed (seed == 0x6bca1ac)) returns %lx, expected %lx",
        result, expected);
/*
 * Note that up to here const_3 is not used
 * (the highest bit of the result is not set).
 *
 * Starting with 0x6bca1ad: If seed is even the result must be incremented by 1:
 */
    seed = 0x6bca1ad;
    expected = (seed * 0xffffffed + 0x7fffffc3) & MAXLONG;
    result = pRtlUniform(&seed);
    ok(result == expected,
        "RtlUniform(&seed (seed == 0x6bca1ad)) returns %lx, expected %lx",
        result, expected);

    seed = 0x6bca1ae;
    expected = (seed * 0xffffffed + 0x7fffffc3 + 1) & MAXLONG;
    result = pRtlUniform(&seed);
    ok(result == expected,
        "RtlUniform(&seed (seed == 0x6bca1ae)) returns %lx, expected %lx",
        result, expected);
/*
 * There are several ranges where for odd or even seed the result must be
 * incremented by 1. You can see this ranges in the following test.
 *
 * For a full test use one of the following loop heads:
 *
 *  for (num = 0; num <= 0xffffffff; num++) {
 *      seed = num;
 *      ...
 *
 *  seed = 0;
 *  for (num = 0; num <= 0xffffffff; num++) {
 *      ...
 */
    seed = 0;
    for (num = 0; num <= 100000; num++) {

	expected = seed * 0xffffffed + 0x7fffffc3;
	if (seed < 0x6bca1ac) {
	    expected = expected + (seed & 1);
	} else if (seed == 0x6bca1ac) {
	    expected = (expected + 2) & MAXLONG;
	} else if (seed < 0xd79435c) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0x1435e50b) {
	    expected = expected + (seed & 1);
	} else if (seed < 0x1af286ba) { 
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0x21af2869) {
	    expected = expected + (seed & 1);
	} else if (seed < 0x286bca18) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0x2f286bc7) {
	    expected = expected + (seed & 1);
	} else if (seed < 0x35e50d77) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0x3ca1af26) {
	    expected = expected + (seed & 1);
	} else if (seed < 0x435e50d5) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0x4a1af284) {
	    expected = expected + (seed & 1);
	} else if (seed < 0x50d79433) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0x579435e2) {
	    expected = expected + (seed & 1);
	} else if (seed < 0x5e50d792) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0x650d7941) {
	    expected = expected + (seed & 1);
	} else if (seed < 0x6bca1af0) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0x7286bc9f) {
	    expected = expected + (seed & 1);
	} else if (seed < 0x79435e4e) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0x7ffffffd) {
	    expected = expected + (seed & 1);
	} else if (seed < 0x86bca1ac) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed == 0x86bca1ac) {
	    expected = (expected + 1) & MAXLONG;
	} else if (seed < 0x8d79435c) {
	    expected = expected + (seed & 1);
	} else if (seed < 0x9435e50b) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0x9af286ba) {
	    expected = expected + (seed & 1);
	} else if (seed < 0xa1af2869) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0xa86bca18) {
	    expected = expected + (seed & 1);
	} else if (seed < 0xaf286bc7) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed == 0xaf286bc7) {
	    expected = (expected + 2) & MAXLONG;
	} else if (seed < 0xb5e50d77) {
	    expected = expected + (seed & 1);
	} else if (seed < 0xbca1af26) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0xc35e50d5) {
	    expected = expected + (seed & 1);
	} else if (seed < 0xca1af284) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0xd0d79433) {
	    expected = expected + (seed & 1);
	} else if (seed < 0xd79435e2) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0xde50d792) {
	    expected = expected + (seed & 1);
	} else if (seed < 0xe50d7941) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0xebca1af0) {
	    expected = expected + (seed & 1);
	} else if (seed < 0xf286bc9f) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else if (seed < 0xf9435e4e) {
	    expected = expected + (seed & 1);
	} else if (seed < 0xfffffffd) {
	    expected = (expected + (~seed & 1)) & MAXLONG;
	} else {
	    expected = expected + (seed & 1);
	} /* if */
        seed_bak = seed;
        result = pRtlUniform(&seed);
        ok(result == expected,
                "test: %llu RtlUniform(&seed (seed == %lx)) returns %lx, expected %lx",
                num, seed_bak, result, expected);
        ok(seed == expected,
                "test: %llu RtlUniform(&seed (seed == %lx)) sets seed to %lx, expected %lx",
                num, seed_bak, seed, expected);
    } /* for */
/*
 * Further investigation shows: In the different regions the highest bit
 * is set or cleared when even or odd seeds need an increment by 1.
 * This leads to the simplified RtlUniform of wine (see dlls/ntdll/rtl.c).
 */
}


START_TEST(rtl)
{
    InitFunctionPtrs();

    test_RtlCompareMemoryUlong();
    test_RtlUniform();
}