reactos/rosapps/tests/global_mem/global_mem.c
Steven Edwards 456be5d16b remove trailing whitespace at end of lines
svn path=/trunk/; revision=15091
2005-05-07 21:24:31 +00:00

1062 lines
29 KiB
C

/* File: global_mem.c
**
** This program is a test application used for testing correctness of the
** GlobalXXX memory API implementation.
**
** Programmer: Mark Tempel
*/
#include <windows.h>
#include <stdio.h>
#include <string.h>
/*
** All output is line wrapped to fit a 80 column screen.
** these defines control that formatting. To shrink the
** screen columns, just change the DISPLAY_COMUMNS macro.
*/
#define DISPLAY_COLUMNS 78
#define LINE_BUFFER_SIZE DISPLAY_COLUMNS + 2
/*
** This define controls the size of a memory allocation request.
** For this test suite to really be comprehensive, we should
** probably be testing many different block sizes.
*/
#define MEM_BLOCK_SIZE 0x80000
/*
** This enumeration is really the return value for the program.
** All test return a TestStatus and test statuses can be combined
** with the relation TEST_CombineStatus.
*/
typedef enum TestStatus
{
FAILED = 0,
PASSED = 1,
SKIPPED = -1
} TEST_STATUS;
/*---------------------------------------------------------------------------
** This is a relation used to combine two test statuses.
** The combine rules are as follows:
** FAIL & Anything == FAIL
** SKIPPED & Anything == Anything
**
*/
TEST_STATUS TEST_CombineStatus(TEST_STATUS a, TEST_STATUS b)
{
TEST_STATUS result = a;
switch (a)
{
case PASSED: result = (PASSED == b || SKIPPED == b) ? (PASSED) : (FAILED); break;
case FAILED: result = FAILED; break;
case SKIPPED: result = b; break;
}
return result;
}
/*---------------------------------------------------------------------------
** This outputs the banner border lines.
*/
void OUTPUT_BannerLine()
{
int c = 0;
printf("+");
for (c = 1; c < DISPLAY_COLUMNS; c++)
{
printf("-");
}
printf("\n");
}
/*---------------------------------------------------------------------------
** This method prints a line that has a | on the left, and is line wrapped
** to be no more that DISPLAY_COLUMNS +2 wide.
*/
void OUTPUT_Line(const char *szLine)
{
int spaceIndex = 0;
char output[LINE_BUFFER_SIZE];
memset(output, 0, DISPLAY_COLUMNS + 2);
/*If this line is longer than DISPLAY_COLUMNS,
* break it at the first space.
*/
if (DISPLAY_COLUMNS - 2 < strlen(szLine))
{
for (spaceIndex = DISPLAY_COLUMNS / 2; spaceIndex < DISPLAY_COLUMNS - 2; spaceIndex++)
{
if (' ' == szLine[spaceIndex])
{
break;
}
}
memcpy(output + 2, szLine, spaceIndex + 1);
output[0] = '|';
output[1] = ' ';
output[strlen(output)] = '\n';
printf(output);
OUTPUT_Line(szLine + spaceIndex + 1);
}
else
{
sprintf(output,"| %s\n", szLine);
printf(output);
}
}
/*---------------------------------------------------------------------------
**
*/
void OUTPUT_Banner(const char *szBanner)
{
OUTPUT_BannerLine();
OUTPUT_Line(szBanner);
OUTPUT_BannerLine();
}
/*---------------------------------------------------------------------------
**
*/
void OUTPUT_Result(TEST_STATUS status)
{
switch (status)
{
case PASSED: OUTPUT_Line("==> PASSED"); break;
case FAILED: OUTPUT_Line("*** FAILED"); break;
case SKIPPED: OUTPUT_Line("==> SKIPPED"); break;
}
OUTPUT_Line("");
}
/*---------------------------------------------------------------------------
**
*/
void OUTPUT_HexDword(DWORD dw)
{
char buffer[32];
sprintf(buffer, "0x%lX",dw);
OUTPUT_Line(buffer);
}
/*---------------------------------------------------------------------------
**
*/
void OutputAllocFlags(UINT pFlags)
{
if (pFlags & GMEM_MOVEABLE)
{
OUTPUT_Line("Movable Memory");
}
else
{
OUTPUT_Line("Fixed Memory");
}
if (pFlags & GMEM_ZEROINIT)
{
OUTPUT_Line("Zero Initialized Memory");
}
}
/*---------------------------------------------------------------------------
**
*/
void OutputErrorCode()
{
char buffer[256];
sprintf(buffer,"GetLastError() returned %lu", GetLastError());
OUTPUT_Line(buffer);
}
/*---------------------------------------------------------------------------
**
*/
TEST_STATUS TEST_MemoryWrite(LPVOID mem, DWORD cbSize)
{
TEST_STATUS result = FAILED;
if (0 == IsBadWritePtr(mem, cbSize))
{
result = PASSED;
}
return result;
}
/*---------------------------------------------------------------------------
**
*/
TEST_STATUS TEST_MemoryRead(LPVOID mem, DWORD cbSize)
{
TEST_STATUS result = FAILED;
if (0 == IsBadReadPtr(mem, cbSize))
{
result = PASSED;
}
return result;
}
/*---------------------------------------------------------------------------
** This method tests to see if a block of global memory is movable
** by seeing if the value returned from GlobalLock is different from
** the passed in value.
*/
int IsMovable(HGLOBAL hMem)
{
LPVOID pMem = 0;
int rc = 0;
pMem = GlobalLock(hMem);
if (pMem != hMem)
{
rc = 1;
}
GlobalUnlock(hMem);
return rc;
}
/*---------------------------------------------------------------------------
**
*/
TEST_STATUS TestGlobalAllocNFree(UINT allocFlags)
{
TEST_STATUS status = SKIPPED;
HGLOBAL hTest = 0;
OUTPUT_Banner("Testing the GlobalAlloc and GlobalFree calls");
OUTPUT_Line("Allocate a buffer");
OutputAllocFlags(allocFlags);
status = FAILED;
hTest = GlobalAlloc(allocFlags, MEM_BLOCK_SIZE);
if (0 != hTest)
{
if (0 == GlobalFree(hTest));
{
status = PASSED;
}
}
OUTPUT_Line("Result for this run:");
OUTPUT_Result(status);
OUTPUT_Line("");
return status;
}
/*---------------------------------------------------------------------------
**
*/
TEST_STATUS TestGlobalLockNUnlock(UINT allocFlags)
{
HGLOBAL hMem = 0;
LPVOID pMem = 0;
TEST_STATUS subtest = SKIPPED;
TEST_STATUS result = FAILED;
OUTPUT_Banner("Testing the GlobalLock/Unlock functions.");
OutputAllocFlags(allocFlags);
OUTPUT_Line("");
hMem = GlobalAlloc(allocFlags, MEM_BLOCK_SIZE);
if (0 != hMem)
{
OUTPUT_Line("Allocated a memory block");
OUTPUT_Line("Testing Lock");
pMem = GlobalLock(hMem);
if (0 != pMem)
{
OUTPUT_Result(PASSED);
OUTPUT_Line("Testing memory for read.");
subtest = TEST_MemoryRead(pMem, MEM_BLOCK_SIZE);
OUTPUT_Result(subtest);
result = TEST_CombineStatus(PASSED, subtest);
OUTPUT_Line("Testing memory for write.");
subtest = TEST_MemoryRead(pMem, MEM_BLOCK_SIZE);
OUTPUT_Result(subtest);
result = TEST_CombineStatus(result, subtest);
OUTPUT_Line("Unlocking memory");
if (GlobalUnlock(hMem))
{
OUTPUT_Result(PASSED);
result = TEST_CombineStatus(result, PASSED);
}
else
{
if (NO_ERROR == GetLastError())
{
OUTPUT_Result(PASSED);
result = TEST_CombineStatus(result, PASSED);
}
else
{
OutputErrorCode();
OUTPUT_Result(FAILED);
result = TEST_CombineStatus(result, FAILED);
}
}
}
OUTPUT_Line("Freeing memory");
if (0 == GlobalFree(hMem))
{
OUTPUT_Result(PASSED);
result = TEST_CombineStatus(result, PASSED);
}
else
{
OutputErrorCode();
OUTPUT_Result(FAILED);
result = TEST_CombineStatus(result, FAILED);
}
}
return result;
}
/*---------------------------------------------------------------------------
**
*/
TEST_STATUS TestGlobalReAllocFixed()
{
HGLOBAL hMem = 0;
HGLOBAL hReAlloced = 0;
LPVOID pMem = 0;
TEST_STATUS subtest = SKIPPED;
TEST_STATUS result = SKIPPED;
OUTPUT_Line("Testing GlobalReAlloc() on memory allocated as GMEM_FIXED");
/* Case 1: convert a fixed block to a movable block. */
OUTPUT_Line("Allocating buffer");
hMem = GlobalAlloc(GMEM_FIXED, MEM_BLOCK_SIZE);
if (0 != hMem)
{
OUTPUT_Line("Testing to see if this is converted into a movable block");
hReAlloced = GlobalReAlloc(hMem, MEM_BLOCK_SIZE + 100, GMEM_MOVEABLE | GMEM_MODIFY);
if (0 == hReAlloced)
{
OUTPUT_Line("GlobalReAlloc failed-- returned NULL");
subtest = TEST_CombineStatus(subtest, FAILED);
OUTPUT_Result(subtest);
}
else
{
hMem = hReAlloced;
if (0 == IsMovable(hMem))
{
OUTPUT_Line("GlobalReAlloc returned a fixed pointer.");
subtest = TEST_CombineStatus(subtest, FAILED);
OUTPUT_Result(subtest);
}
else
{
pMem = GlobalLock(hMem);
subtest = TEST_CombineStatus(subtest, PASSED);
subtest = TEST_CombineStatus(subtest, TEST_MemoryRead(pMem, MEM_BLOCK_SIZE + 100));
if (FAILED == subtest)
{
OUTPUT_Line("Memory Read failed.");
}
subtest = TEST_CombineStatus(subtest, TEST_MemoryWrite(pMem, MEM_BLOCK_SIZE + 100));
if (FAILED == subtest)
{
OUTPUT_Line("Memory Write failed.");
}
GlobalUnlock(hMem);
}
}
GlobalFree(hMem);
}
else
{
OUTPUT_Line("Global Alloc Failed.");
subtest = TEST_CombineStatus(subtest, FAILED);
}
OUTPUT_Line("Subtest result:");
OUTPUT_Result(subtest);
OUTPUT_Line("");
result = TEST_CombineStatus(result, subtest);
subtest = SKIPPED;
/* case 2 only move a fixed block */
OUTPUT_Line("Allocating buffer");
hMem = GlobalAlloc(GMEM_FIXED, MEM_BLOCK_SIZE);
if (0 != hMem)
{
OUTPUT_Line("Testing to see if a new fixed block is returned.");
hReAlloced = GlobalReAlloc(hMem, MEM_BLOCK_SIZE - 100, GMEM_MOVEABLE);
if (0 == hReAlloced)
{
OUTPUT_Line("GlobalReAlloc failed-- returned NULL");
subtest = TEST_CombineStatus(subtest, FAILED);
OUTPUT_Result(subtest);
}
else
{
OUTPUT_Line("Alloced Handle: ");
OUTPUT_HexDword((DWORD)hMem);
OUTPUT_Line("ReAlloced Handle: ");
OUTPUT_HexDword((DWORD)hReAlloced);
if (hMem == hReAlloced)
{
OUTPUT_Line("GlobalReAlloc returned the same pointer. The documentation states that this is wrong, but Windows NT works this way.");
}
hMem = hReAlloced;
subtest = TEST_CombineStatus(subtest, PASSED);
subtest = TEST_CombineStatus(subtest, TEST_MemoryRead((LPVOID)hMem, MEM_BLOCK_SIZE - 100));
subtest = TEST_CombineStatus(subtest, TEST_MemoryWrite((LPVOID)hMem, MEM_BLOCK_SIZE - 100));
}
GlobalFree(hMem);
}
else
{
subtest = TEST_CombineStatus(subtest, FAILED);
}
OUTPUT_Line("Subtest result:");
OUTPUT_Result(subtest);
OUTPUT_Line("");
result = TEST_CombineStatus(result, subtest);
subtest = SKIPPED;
/* Case 3: re-allocate a fixed block in place */
OUTPUT_Line("Allocating buffer");
hMem = GlobalAlloc(GMEM_FIXED, MEM_BLOCK_SIZE);
if (0 != hMem)
{
OUTPUT_Line("Testing to see if a fixed pointer is reallocated in place.");
hReAlloced = GlobalReAlloc(hMem, MEM_BLOCK_SIZE - 100, 0);
if (0 == hReAlloced)
{
OUTPUT_Line("GlobalReAlloc failed-- returned NULL");
subtest = TEST_CombineStatus(subtest, FAILED);
OUTPUT_Result(subtest);
}
else
{
OUTPUT_Line("Alloced Handle: ");
OUTPUT_HexDword((DWORD)hMem);
OUTPUT_Line("ReAlloced Handle: ");
OUTPUT_HexDword((DWORD)hReAlloced);
if (hMem != hReAlloced)
{
OUTPUT_Line("GlobalReAlloc returned a different.");
subtest = TEST_CombineStatus(subtest, FAILED);
OUTPUT_Result(subtest);
}
else
{
subtest = TEST_CombineStatus(subtest, PASSED);
subtest = TEST_CombineStatus(subtest, TEST_MemoryRead((LPVOID)hMem, MEM_BLOCK_SIZE - 100));
subtest = TEST_CombineStatus(subtest, TEST_MemoryWrite((LPVOID)hMem, MEM_BLOCK_SIZE - 100));
}
}
GlobalFree(hMem);
}
else
{
subtest = TEST_CombineStatus(subtest, FAILED);
}
OUTPUT_Line("Subtest result:");
OUTPUT_Result(subtest);
OUTPUT_Line("");
result = TEST_CombineStatus(result, subtest);
OUTPUT_Line("");
return result;
}
/*---------------------------------------------------------------------------
**
*/
TEST_STATUS TestGlobalReAllocMovable()
{
HGLOBAL hMem = 0;
HGLOBAL hReAlloced = 0;
LPVOID pMem = 0;
TEST_STATUS subtest = SKIPPED;
TEST_STATUS result = SKIPPED;
OUTPUT_Line("Testing GlobalReAlloc() on memory allocated as GMGM_MOVEABLE");
/* case 1 test reallocing a movable block that is unlocked. */
OUTPUT_Line("Allocating buffer");
hMem = GlobalAlloc(GMEM_MOVEABLE, MEM_BLOCK_SIZE);
if (0 != hMem)
{
OUTPUT_Line("Testing GlobalReAlloc on a unlocked block.");
hReAlloced = GlobalReAlloc(hMem, MEM_BLOCK_SIZE - 100, 0);
if (0 == hReAlloced)
{
OUTPUT_Line("GlobalReAlloc failed-- returned NULL");
subtest = TEST_CombineStatus(subtest, FAILED);
OUTPUT_Result(subtest);
}
else
{
OUTPUT_Line("Alloced Handle: ");
OUTPUT_HexDword((DWORD)hMem);
OUTPUT_Line("ReAlloced Handle: ");
OUTPUT_HexDword((DWORD)hReAlloced);
pMem = GlobalLock(hReAlloced);
hMem = hReAlloced;
subtest = TEST_CombineStatus(subtest, PASSED);
subtest = TEST_CombineStatus(subtest, TEST_MemoryRead(pMem, MEM_BLOCK_SIZE - 100));
subtest = TEST_CombineStatus(subtest, TEST_MemoryWrite(pMem, MEM_BLOCK_SIZE - 100));
GlobalUnlock(hReAlloced);
}
GlobalFree(hMem);
}
else
{
subtest = TEST_CombineStatus(subtest, FAILED);
}
OUTPUT_Line("Subtest result:");
OUTPUT_Result(subtest);
OUTPUT_Line("");
result = TEST_CombineStatus(result, subtest);
subtest = SKIPPED;
/* Case 2: re-allocate a moveable block that is locked */
OUTPUT_Line("Allocating buffer");
hMem = GlobalAlloc(GMEM_MOVEABLE, MEM_BLOCK_SIZE);
if (0 != hMem)
{
OUTPUT_Line("Testing GlobalReAlloc on a locked block.");
pMem = GlobalLock(hMem);
hReAlloced = GlobalReAlloc(hMem, MEM_BLOCK_SIZE - 100, 0);
if (0 == hReAlloced)
{
OUTPUT_Line("GlobalReAlloc failed-- returned NULL");
subtest = TEST_CombineStatus(subtest, FAILED);
OUTPUT_Result(subtest);
}
else
{
OUTPUT_Line("Alloced Handle: ");
OUTPUT_HexDword((DWORD)hMem);
OUTPUT_Line("ReAlloced Handle: ");
OUTPUT_HexDword((DWORD)hReAlloced);
if (hMem != hReAlloced)
{
OUTPUT_Line("GlobalReAlloc returned a different block.");
}
pMem = GlobalLock(hReAlloced);
subtest = TEST_CombineStatus(subtest, PASSED);
subtest = TEST_CombineStatus(subtest, TEST_MemoryRead(pMem, MEM_BLOCK_SIZE - 100));
subtest = TEST_CombineStatus(subtest, TEST_MemoryWrite(pMem , MEM_BLOCK_SIZE - 100));
GlobalUnlock(hReAlloced);
}
GlobalUnlock(hMem);
GlobalFree(hMem);
}
else
{
subtest = TEST_CombineStatus(subtest, FAILED);
}
OUTPUT_Line("Subtest result:");
OUTPUT_Result(subtest);
OUTPUT_Line("");
result = TEST_CombineStatus(result, subtest);
OUTPUT_Line("");
return result;
}
/*---------------------------------------------------------------------------
**
*/
TEST_STATUS TestGlobalReAlloc()
{
OUTPUT_Banner("Testing GlobalReAlloc()");
TEST_STATUS result = SKIPPED;
result = TEST_CombineStatus(result, TestGlobalReAllocFixed());
result = TEST_CombineStatus(result, TestGlobalReAllocMovable());
OUTPUT_Line("GlobalReAlloc test result:");
OUTPUT_Result(result);
return result;
}
/*---------------------------------------------------------------------------
**
*/
TEST_STATUS TestGlobalFlagsMoveable()
{
HGLOBAL hMem = 0;
UINT uFlags = 0;
TEST_STATUS result = SKIPPED;
OUTPUT_Line("Test for the proper lock count");
hMem = GlobalAlloc(GMEM_MOVEABLE, MEM_BLOCK_SIZE);
if (0 != hMem)
{
OUTPUT_Line("Testing initial allocation");
OUTPUT_Line("Testing for a lock of 0");
uFlags = GlobalFlags(hMem);
if (((GMEM_LOCKCOUNT & uFlags) == 0)) /*no locks*/
{
result = TEST_CombineStatus(result, PASSED);
}
else
{
result = TEST_CombineStatus(result, FAILED);
}
OUTPUT_Result(result);
OUTPUT_Line("Pointer from handle: ");
OUTPUT_HexDword((DWORD)GlobalLock(hMem));
OUTPUT_Line("Testing after a lock");
OUTPUT_Line("Testing for a lock of 1");
uFlags = GlobalFlags(hMem);
if (((GMEM_LOCKCOUNT & uFlags) == 1)) /*no locks*/
{
result = TEST_CombineStatus(result, PASSED);
}
else
{
result = TEST_CombineStatus(result, FAILED);
}
OUTPUT_Result(result);
GlobalUnlock(hMem);
OUTPUT_Line("Testing after an unlock");
OUTPUT_Line("Testing for a lock of 0");
uFlags = GlobalFlags(hMem);
if (((GMEM_LOCKCOUNT & uFlags) == 0)) /*no locks*/
{
result = TEST_CombineStatus(result, PASSED);
}
else
{
result = TEST_CombineStatus(result, FAILED);
}
OUTPUT_Result(result);
}
else
{
OUTPUT_Line("GlobalAlloc failed!");
result = TEST_CombineStatus(result, FAILED);
}
OUTPUT_Line("Test for discarded memory");
OUTPUT_Line("Allocating an empty moveable block---automatically marked as discarded");
hMem = GlobalAlloc(GMEM_MOVEABLE, 0); /*allocate a discarded block*/
if (0 != hMem)
{
OUTPUT_Line("Allocation handle: ");
OUTPUT_HexDword((DWORD)hMem);
OUTPUT_Line("Testing for a discarded flag");
uFlags = GlobalFlags(hMem);
if (0 != (uFlags & GMEM_DISCARDED)) /*discarded*/
{
result = TEST_CombineStatus(result, PASSED);
}
else
{
result = TEST_CombineStatus(result, FAILED);
}
OUTPUT_Line("Flags:");
OUTPUT_HexDword(uFlags);
OUTPUT_Result(result);
GlobalFree(hMem);
}
else
{
OUTPUT_Line("GlobalAlloc failed!");
result = TEST_CombineStatus(result, FAILED);
}
return result;
}
/*---------------------------------------------------------------------------
**
*/
TEST_STATUS TestGlobalFlagsFixed()
{
HGLOBAL hMem = 0;
UINT uFlags = 0;
TEST_STATUS result = SKIPPED;
OUTPUT_Line("Testing for correct handling of GMEM_FIXED memory");
hMem = GlobalAlloc(GMEM_FIXED, MEM_BLOCK_SIZE);
if (0 != hMem)
{
OUTPUT_Line("Allocation handle: ");
OUTPUT_HexDword((DWORD)hMem);
OUTPUT_Line("Testing initial allocation");
OUTPUT_Line("Testing for non-discarded and lock of 0");
uFlags = GlobalFlags(hMem);
if (((GMEM_LOCKCOUNT & uFlags) == 0) && /*no locks*/
(((uFlags >> 8) & 0xff) == 0 )) /*not discarded*/
{
result = TEST_CombineStatus(result, PASSED);
}
else
{
result = TEST_CombineStatus(result, FAILED);
}
OUTPUT_Result(result);
OUTPUT_Line("Pointer from handle: ");
OUTPUT_HexDword((DWORD)GlobalLock(hMem));
OUTPUT_Line("Testing after a lock");
OUTPUT_Line("Testing for non-discarded and lock of 0");
uFlags = GlobalFlags(hMem);
if (((GMEM_LOCKCOUNT & uFlags) == 0) && /*no locks*/
(((uFlags >> 8) & 0xff) == 0 )) /*not discarded*/
{
result = TEST_CombineStatus(result, PASSED);
}
else
{
result = TEST_CombineStatus(result, FAILED);
}
OUTPUT_Result(result);
GlobalFree(hMem);
}
else
{
OUTPUT_Line("GlobalAlloc failed!");
result = TEST_CombineStatus(result, FAILED);
}
return result;
}
/*---------------------------------------------------------------------------
**
*/
TEST_STATUS TestGlobalFlags()
{
OUTPUT_Banner("Testing GlobalFlags()");
TEST_STATUS result = SKIPPED;
result = TEST_CombineStatus(result, TestGlobalFlagsFixed());
result = TEST_CombineStatus(result, TestGlobalFlagsMoveable());
OUTPUT_Line("GlobalFlags result:");
OUTPUT_Result(result);
return result;
}
/*---------------------------------------------------------------------------
**
*/
TEST_STATUS TestGlobalHandle()
{
HGLOBAL hMem = 0;
HGLOBAL hTest = 0;
PVOID pMem = 0;
TEST_STATUS subtest = SKIPPED;
TEST_STATUS result = SKIPPED;
OUTPUT_Banner("Testing GlobalHandle()");
OUTPUT_Line("Testing GlobalHandle with a block of GMEM_FIXED memory");
hMem = GlobalAlloc(GMEM_FIXED, MEM_BLOCK_SIZE);
if (0 != hMem)
{
OUTPUT_Line("Allocation handle: ");
OUTPUT_HexDword((DWORD)hMem);
hTest = GlobalHandle(hMem);
if (hMem == hTest)
{
subtest = TEST_CombineStatus(subtest, PASSED);
}
else
{
OUTPUT_Line("GlobalHandle returned:");
OUTPUT_HexDword((DWORD)hTest);
subtest = TEST_CombineStatus(subtest, FAILED);
}
GlobalFree(hMem);
}
else
{
OUTPUT_Line("GlobalAlloc failed!");
subtest = TEST_CombineStatus(subtest, FAILED);
}
OUTPUT_Line("Result from subtest:");
OUTPUT_Result(subtest);
result = TEST_CombineStatus(result, subtest);
subtest = SKIPPED;
OUTPUT_Line("Testing GlobalHandle with a block of GMEM_MOVEABLE memory");
hMem = GlobalAlloc(GMEM_MOVEABLE, MEM_BLOCK_SIZE);
if (0 != hMem)
{
OUTPUT_Line("Allocation handle: ");
OUTPUT_HexDword((DWORD)hMem);
pMem = GlobalLock(hMem);
hTest = GlobalHandle(pMem);
if (hMem == hTest)
{
subtest = TEST_CombineStatus(subtest, PASSED);
}
else
{
OUTPUT_Line("GlobalHandle returned:");
OUTPUT_HexDword((DWORD)hTest);
subtest = TEST_CombineStatus(subtest, FAILED);
}
GlobalUnlock(hMem);
GlobalFree(hMem);
}
else
{
OUTPUT_Line("GlobalAlloc failed!");
subtest = TEST_CombineStatus(subtest, FAILED);
}
OUTPUT_Line("Result from subtest:");
OUTPUT_Result(subtest);
result = TEST_CombineStatus(result, subtest);
OUTPUT_Line("Global Handle test results:");
OUTPUT_Result(result);
return result;
}
/*---------------------------------------------------------------------------
**
*/
TEST_STATUS TestGlobalSize()
{
HGLOBAL hMem = 0;
SIZE_T size = 0;
TEST_STATUS subtest = SKIPPED;
TEST_STATUS result = SKIPPED;
OUTPUT_Banner("Testing GlobalSize()");
OUTPUT_Line("Testing GlobalSize with a block of GMEM_FIXED memory");
hMem = GlobalAlloc(GMEM_FIXED, MEM_BLOCK_SIZE);
if (0 != hMem)
{
size = GlobalSize(hMem);
if (MEM_BLOCK_SIZE <= size)
{
subtest = TEST_CombineStatus(subtest, PASSED);
}
else
{
OUTPUT_Line("GlobalSize returned:");
OUTPUT_HexDword(size);
subtest = TEST_CombineStatus(subtest, FAILED);
}
GlobalFree(hMem);
}
else
{
OUTPUT_Line("GlobalAlloc failed!");
subtest = TEST_CombineStatus(subtest, FAILED);
}
OUTPUT_Line("Result from subtest:");
OUTPUT_Result(subtest);
result = TEST_CombineStatus(result, subtest);
OUTPUT_Line("Testing GlobalSize with a block of GMEM_MOVEABLE memory");
hMem = GlobalAlloc(GMEM_MOVEABLE, MEM_BLOCK_SIZE);
if (0 != hMem)
{
size = GlobalSize(hMem);
if (MEM_BLOCK_SIZE <= size)
{
subtest = TEST_CombineStatus(subtest, PASSED);
}
else
{
OUTPUT_Line("GlobalSize returned:");
OUTPUT_HexDword(size);
subtest = TEST_CombineStatus(subtest, FAILED);
}
GlobalFree(hMem);
}
else
{
OUTPUT_Line("GlobalAlloc failed!");
subtest = TEST_CombineStatus(subtest, FAILED);
}
OUTPUT_Line("Result from subtest:");
OUTPUT_Result(subtest);
result = TEST_CombineStatus(result, subtest);
OUTPUT_Line("Testing GlobalSize with discarded memory");
hMem = GlobalAlloc(GMEM_MOVEABLE, 0);
if (0 != hMem)
{
size = GlobalSize(hMem);
if (0 == size)
{
subtest = TEST_CombineStatus(subtest, PASSED);
}
else
{
OUTPUT_Line("GlobalSize returned:");
OUTPUT_HexDword(size);
subtest = TEST_CombineStatus(subtest, FAILED);
}
GlobalFree(hMem);
}
else
{
OUTPUT_Line("GlobalAlloc failed!");
subtest = TEST_CombineStatus(subtest, FAILED);
}
OUTPUT_Line("Result from subtest:");
OUTPUT_Result(subtest);
result = TEST_CombineStatus(result, subtest);
OUTPUT_Line("Test result:");
OUTPUT_Result(result);
return result;
}
/*---------------------------------------------------------------------------
**
*/
TEST_STATUS TestGlobalDiscard()
{
HGLOBAL hMem = 0;
HGLOBAL hTest = 0;
DWORD uFlags = 0;
TEST_STATUS subtest = SKIPPED;
TEST_STATUS result = SKIPPED;
OUTPUT_Banner("Testing GlobalDiscard()");
hMem = GlobalAlloc(GMEM_MOVEABLE, MEM_BLOCK_SIZE);
if (0 != hMem)
{
OUTPUT_Line("Allocation handle: ");
OUTPUT_HexDword((DWORD)hMem);
hTest = GlobalDiscard(hMem);
if (0 == hTest)
{
OUTPUT_Line("GlobalDiscard returned NULL");
subtest = TEST_CombineStatus(subtest, FAILED);
}
else
{
uFlags = GlobalFlags(hTest);
OUTPUT_Line("Flags from the new memory block.");
OUTPUT_HexDword(uFlags);
if (0 != (uFlags & GMEM_DISCARDED))
{
subtest = TEST_CombineStatus(subtest, PASSED);
}
else
{
OUTPUT_Line("Block is not marked as discardable.");
subtest = TEST_CombineStatus(subtest, FAILED);
}
}
GlobalFree(hTest);
}
else
{
OUTPUT_Line("GlobalAlloc failed!");
subtest = TEST_CombineStatus(subtest, FAILED);
}
OUTPUT_Line("Result from subtest:");
OUTPUT_Result(subtest);
result = TEST_CombineStatus(result, subtest);
OUTPUT_Result(result);
return result;
}
/*---------------------------------------------------------------------------
**
*/
int main(int argc, char ** argv)
{
TEST_STATUS test_set = SKIPPED;
OUTPUT_Banner("Testing GlobalXXX memory management functions.");
test_set = TEST_CombineStatus(test_set, TestGlobalAllocNFree(GPTR));
test_set = TEST_CombineStatus(test_set, TestGlobalAllocNFree(GHND));
test_set = TEST_CombineStatus(test_set, TestGlobalAllocNFree(GMEM_FIXED));
test_set = TEST_CombineStatus(test_set, TestGlobalAllocNFree(GMEM_MOVEABLE));
if (FAILED == test_set)
{
OUTPUT_Line("Skipping any further tests. GlobalAlloc/Free fails.");
OUTPUT_Result(test_set);
return test_set;
}
test_set = TEST_CombineStatus(test_set, TestGlobalLockNUnlock(GPTR));
test_set = TEST_CombineStatus(test_set, TestGlobalLockNUnlock(GHND));
test_set = TEST_CombineStatus(test_set, TestGlobalLockNUnlock(GMEM_FIXED));
test_set = TEST_CombineStatus(test_set, TestGlobalLockNUnlock(GMEM_MOVEABLE));
test_set = TEST_CombineStatus(test_set, TestGlobalReAlloc());
test_set = TEST_CombineStatus(test_set, TestGlobalFlags());
test_set = TEST_CombineStatus(test_set, TestGlobalHandle());
test_set = TEST_CombineStatus(test_set, TestGlobalSize());
test_set = TEST_CombineStatus(test_set, TestGlobalDiscard());
/* output the result for the entire set of tests*/
OUTPUT_Banner("Test suite result");
OUTPUT_Result(test_set);
return test_set;
}