windows-nt/Source/XPSP1/NT/base/ntsetup/hwdb/utils/main/main.c

/*++

Copyright (c) 1996 Microsoft Corporation

Module Name:

    main.c

Abstract:

    Main source file of migutil.dll

Author:

    Jim Schmidt (jimschm)   01-Aug-1996

Revision History:

    marcw       2-Sep-1999  Moved over from Win9xUpg project.
    jimschm     23-Sep-1998 Start thread
    marcw       23-Sep-1998 Locale fix
    jimschm     03-Nov-1997 Added TextAlloc routines
    marcw       22-Jul-1997 Added IS<platform> functions.

--*/


#include "pch.h"
#include "utilsp.h"
#include "locale.h"

//#define DEBUG_ALL_FILES

HINSTANCE g_hInst;
HANDLE g_hHeap;

OSVERSIONINFOA g_OsInfo;
OUR_CRITICAL_SECTION g_MemDbCs;

#define TEXT_GROWTH_SIZE    65536


//
// OS-dependent flags for MultiByteToWideChar
//

DWORD g_MigutilWCToMBFlags = 0;


//
// g_ShortTermAllocTable is the default table used for resource string
// management.  New strings are allocated from the table.
//
// Allocation tables are very simple ways to store strings loaded in from
// the exe image.  The loaded string is copied into the table and kept
// around until it is explicitly freed.  Multiple attempts at getting the
// same resource string return the same string, inc'ing a use counter.
//
// g_OutOfMemoryTable is the table used to hold out-of-memory text.  It
// is loaded up at init time and is kept in memory for the whole time
// migutil is in use, so out-of-memory messages can always be displayed.
//

PGROWBUFFER g_ShortTermAllocTable;
PGROWBUFFER g_OutOfMemoryTable;

//
// We make sure the message APIs (GetStringResource, ParseMessageID, etc)
// are thread-safe
//

OUR_CRITICAL_SECTION g_MessageCs;

//
// The PoolMem routines must also be thread-safe
//

OUR_CRITICAL_SECTION g_PmCs;

//
// MemAlloc critical section
//

OUR_CRITICAL_SECTION g_MemAllocCs;

//
// The following pools are used for text management.  g_RegistryApiPool is
// for reg.c, g_PathsPool is for the JoinPaths/DuplicatePath/etc routines,
// and g_TextPool is for AllocText, DupText, etc.
//
PMHANDLE g_RegistryApiPool;
PMHANDLE g_PathsPool;
PMHANDLE g_TextPool;

VOID
UtInitialize (
    IN      HANDLE Heap             OPTIONAL
    )
{
    //
    // Set globals
    //

    if (Heap) {
        g_hHeap = Heap;
    } else {
        g_hHeap = GetProcessHeap();
    }

    g_hInst = GetModuleHandle (NULL);

    //
    // Load in OSVERSION info.
    //
    g_OsInfo.dwOSVersionInfoSize = sizeof(OSVERSIONINFOA);

    GetVersionExA (&g_OsInfo);

    //
    // Initialize log
    //

    Init_Log (NULL);

    //
    // Create critical sections
    //

    InitializeOurCriticalSection (&g_MemAllocCs);
    InitializeOurCriticalSection (&g_MemDbCs);
    InitializeOurCriticalSection (&g_PmCs);
    InitializeOurCriticalSection (&g_MessageCs);

    //
    // Now that MemAlloc will work, initialize allocation tracking
    //

    InitAllocationTracking();

    //
    // Create the short-term alloc table for string resource utils
    //

    g_ShortTermAllocTable = CreateAllocTable();

    //
    // MultiByteToWideChar has desirable flags that only function on NT
    //
    g_MigutilWCToMBFlags = (ISNT()) ? WC_NO_BEST_FIT_CHARS : 0;

#ifdef _lint

    g_MigutilWCToMBFlags = g_MigutilWCToMBFlags;

#endif


    //
    // Create pools used by utils.lib code
    //

    g_RegistryApiPool = PmCreateNamedPool ("Registry API");
    g_PathsPool = PmCreateNamedPool ("Paths");
    g_TextPool = PmCreateNamedPool ("Text");

    PmSetMinimumGrowthSize (g_TextPool, TEXT_GROWTH_SIZE);

    ObsInitialize ();
    ElInitialize ();

    //
    // The "out of memory" message
    //

    g_OutOfMemoryTable = CreateAllocTable();

    g_OutOfMemoryRetry  = GetStringResourceExA (
                                g_OutOfMemoryTable,
                                10001 /* MSG_OUT_OF_MEMORY_RETRY */
                                );

    g_OutOfMemoryString = GetStringResourceExA (
                                g_OutOfMemoryTable,
                                10002 /* MSG_OUT_OF_MEMORY */
                                );

    if (!g_OutOfMemoryString || !g_OutOfMemoryRetry) {
        DEBUGMSG ((
            DBG_WARNING,
            "Cannot load out of memory messages; resources 10001 and 10002 do not exist"
            ));
    }

    //
    // set the locale to the system locale. Not doing this can cause isspace
    // to AV in certain MBSCHR circumstances.
    //
    setlocale(LC_ALL,"");
}


VOID
UtTerminate (
    VOID
    )
{
    //
    // Free utility pools
    //

    ElTerminate ();
    ObsTerminate ();

    if (g_RegistryApiPool) {
        PmDestroyPool (g_RegistryApiPool);
    }

    if (g_PathsPool) {
        PmDestroyPool (g_PathsPool);
    }

    if (g_TextPool) {
        PmDestroyPool (g_TextPool);
    }

    if (g_ShortTermAllocTable) {
        DestroyAllocTable (g_ShortTermAllocTable);
    }

    if (g_OutOfMemoryTable) {
        DestroyAllocTable (g_OutOfMemoryTable);
    }

    FreeAllocationTracking();

    //
    // Clean up handles used by critical sections
    //

    DeleteOurCriticalSection (&g_MemAllocCs);
    DeleteOurCriticalSection (&g_MemDbCs);
    DeleteOurCriticalSection (&g_PmCs);
    DeleteOurCriticalSection (&g_MessageCs);

    //
    // MUST BE VERY LAST CODE TO RUN
    //

    DumpHeapStats();
    Exit_Log ();
}


#define WIDTH(rect) (rect.right - rect.left)
#define HEIGHT(rect) (rect.bottom - rect.top)

void
CenterWindow (
    IN  HWND hwnd,
    IN  HWND Parent
    )
{
    RECT WndRect, ParentRect;
    int x, y;

    if (!Parent) {
        ParentRect.left = 0;
        ParentRect.top  = 0;
        ParentRect.right = GetSystemMetrics (SM_CXFULLSCREEN);
        ParentRect.bottom = GetSystemMetrics (SM_CYFULLSCREEN);
    } else {
        GetWindowRect (Parent, &ParentRect);
    }

    MYASSERT (IsWindow (hwnd));

    GetWindowRect (hwnd, &WndRect);

    x = ParentRect.left + (WIDTH(ParentRect) - WIDTH(WndRect)) / 2;
    y = ParentRect.top + (HEIGHT(ParentRect) - HEIGHT(WndRect)) / 2;

    SetWindowPos (hwnd, NULL, x, y, 0, 0, SWP_NOZORDER|SWP_NOSIZE);
}


static INT g_MigUtilWaitCounter = 0;
static HCURSOR g_MigUtilWaitCursor = NULL;

VOID
TurnOnWaitCursor (
    VOID
    )

/*++

Routine Description:

  TurnOnWaitCursor sets the cursor to IDC_WAIT.  It maintains a use
  counter, so code requring the wait cursor can be nested.

Arguments:

  none

Return Value:

  none

--*/

{
    if (g_MigUtilWaitCounter == 0) {
        g_MigUtilWaitCursor = SetCursor (LoadCursor (NULL, IDC_WAIT));
    }

    g_MigUtilWaitCounter++;
}


VOID
TurnOffWaitCursor (
    VOID
    )

/*++

Routine Description:

  TurnOffWaitCursor decrements the wait cursor counter, and if it
  reaches zero the cursor is restored.

Arguments:

  none

Return Value:

  none

--*/

{
    if (!g_MigUtilWaitCounter) {
        DEBUGMSG ((DBG_WHOOPS, "TurnOffWaitCursor called too many times"));
    } else {
        g_MigUtilWaitCounter--;

        if (!g_MigUtilWaitCounter) {
            SetCursor (g_MigUtilWaitCursor);
        }
    }
}


/*++

Routine Description:

  Win9x does not support TryEnterOurCriticalSection, so we must implement
  our own version because it is quite a useful function.

Arguments:

  pcs - A pointer to an OUR_CRITICAL_SECTION object

Return Value:

  TRUE if the function succeeded, or FALSE if it failed.  See Win32
  SDK docs on critical sections, as these routines are identical to
  the caller.

--*/

BOOL
InitializeOurCriticalSection (
    OUR_CRITICAL_SECTION *pcs
    )
{
    // Create initially signaled, auto-reset event
    pcs->EventHandle = CreateEvent (NULL, FALSE, TRUE, NULL);
    if (!pcs->EventHandle) {
        return FALSE;
    }

    return TRUE;
}


VOID
DeleteOurCriticalSection (
    OUR_CRITICAL_SECTION *pcs
    )
{
    if (pcs->EventHandle) {
        CloseHandle (pcs->EventHandle);
        pcs->EventHandle = NULL;
    }

}


BOOL
EnterOurCriticalSection (
    OUR_CRITICAL_SECTION *pcs
    )
{
    DWORD rc;

    // Wait for event to become signaled, then turn it off
    rc = WaitForSingleObject (pcs->EventHandle, INFINITE);
    if (rc == WAIT_OBJECT_0) {
        return TRUE;
    }

    return FALSE;
}

VOID
LeaveOurCriticalSection (
    OUR_CRITICAL_SECTION *pcs
    )
{
    SetEvent (pcs->EventHandle);
}

BOOL
TryEnterOurCriticalSection (
    OUR_CRITICAL_SECTION *pcs
    )
{
    DWORD rc;

    rc = WaitForSingleObject (pcs->EventHandle, 0);
    if (rc == WAIT_OBJECT_0) {
        return TRUE;
    }

    return FALSE;
}


HANDLE
StartThread (
    IN      PTHREAD_START_ROUTINE Address,
    IN      PVOID Arg
    )
{
    DWORD DontCare;

    return CreateThread (NULL, 0, Address, Arg, 0, &DontCare);
}
Add source files 2020-09-26 03:20:57 -05:00			`/*++`

			`Copyright (c) 1996 Microsoft Corporation`

			`Module Name:`

			`main.c`

			`Abstract:`

			`Main source file of migutil.dll`

			`Author:`

			`Jim Schmidt (jimschm) 01-Aug-1996`

			`Revision History:`

			`marcw 2-Sep-1999 Moved over from Win9xUpg project.`
			`jimschm 23-Sep-1998 Start thread`
			`marcw 23-Sep-1998 Locale fix`
			`jimschm 03-Nov-1997 Added TextAlloc routines`
			`marcw 22-Jul-1997 Added IS<platform> functions.`

			`--*/`


			`#include "pch.h"`
			`#include "utilsp.h"`
			`#include "locale.h"`

			`//#define DEBUG_ALL_FILES`

			`HINSTANCE g_hInst;`
			`HANDLE g_hHeap;`

			`OSVERSIONINFOA g_OsInfo;`
			`OUR_CRITICAL_SECTION g_MemDbCs;`

			`#define TEXT_GROWTH_SIZE 65536`


			`//`
			`// OS-dependent flags for MultiByteToWideChar`
			`//`

			`DWORD g_MigutilWCToMBFlags = 0;`


			`//`
			`// g_ShortTermAllocTable is the default table used for resource string`
			`// management. New strings are allocated from the table.`
			`//`
			`// Allocation tables are very simple ways to store strings loaded in from`
			`// the exe image. The loaded string is copied into the table and kept`
			`// around until it is explicitly freed. Multiple attempts at getting the`
			`// same resource string return the same string, inc'ing a use counter.`
			`//`
			`// g_OutOfMemoryTable is the table used to hold out-of-memory text. It`
			`// is loaded up at init time and is kept in memory for the whole time`
			`// migutil is in use, so out-of-memory messages can always be displayed.`
			`//`

			`PGROWBUFFER g_ShortTermAllocTable;`
			`PGROWBUFFER g_OutOfMemoryTable;`

			`//`
			`// We make sure the message APIs (GetStringResource, ParseMessageID, etc)`
			`// are thread-safe`
			`//`

			`OUR_CRITICAL_SECTION g_MessageCs;`

			`//`
			`// The PoolMem routines must also be thread-safe`
			`//`

			`OUR_CRITICAL_SECTION g_PmCs;`

			`//`
			`// MemAlloc critical section`
			`//`

			`OUR_CRITICAL_SECTION g_MemAllocCs;`

			`//`
			`// The following pools are used for text management. g_RegistryApiPool is`
			`// for reg.c, g_PathsPool is for the JoinPaths/DuplicatePath/etc routines,`
			`// and g_TextPool is for AllocText, DupText, etc.`
			`//`
			`PMHANDLE g_RegistryApiPool;`
			`PMHANDLE g_PathsPool;`
			`PMHANDLE g_TextPool;`

			`VOID`
			`UtInitialize (`
			`IN HANDLE Heap OPTIONAL`
			`)`
			`{`
			`//`
			`// Set globals`
			`//`

			`if (Heap) {`
			`g_hHeap = Heap;`
			`} else {`
			`g_hHeap = GetProcessHeap();`
			`}`

			`g_hInst = GetModuleHandle (NULL);`

			`//`
			`// Load in OSVERSION info.`
			`//`
			`g_OsInfo.dwOSVersionInfoSize = sizeof(OSVERSIONINFOA);`

			`GetVersionExA (&g_OsInfo);`

			`//`
			`// Initialize log`
			`//`

			`Init_Log (NULL);`

			`//`
			`// Create critical sections`
			`//`

			`InitializeOurCriticalSection (&g_MemAllocCs);`
			`InitializeOurCriticalSection (&g_MemDbCs);`
			`InitializeOurCriticalSection (&g_PmCs);`
			`InitializeOurCriticalSection (&g_MessageCs);`

			`//`
			`// Now that MemAlloc will work, initialize allocation tracking`
			`//`

			`InitAllocationTracking();`

			`//`
			`// Create the short-term alloc table for string resource utils`
			`//`

			`g_ShortTermAllocTable = CreateAllocTable();`

			`//`
			`// MultiByteToWideChar has desirable flags that only function on NT`
			`//`
			`g_MigutilWCToMBFlags = (ISNT()) ? WC_NO_BEST_FIT_CHARS : 0;`

			`#ifdef _lint`

			`g_MigutilWCToMBFlags = g_MigutilWCToMBFlags;`

			`#endif`


			`//`
			`// Create pools used by utils.lib code`
			`//`

			`g_RegistryApiPool = PmCreateNamedPool ("Registry API");`
			`g_PathsPool = PmCreateNamedPool ("Paths");`
			`g_TextPool = PmCreateNamedPool ("Text");`

			`PmSetMinimumGrowthSize (g_TextPool, TEXT_GROWTH_SIZE);`

			`ObsInitialize ();`
			`ElInitialize ();`

			`//`
			`// The "out of memory" message`
			`//`

			`g_OutOfMemoryTable = CreateAllocTable();`

			`g_OutOfMemoryRetry = GetStringResourceExA (`
			`g_OutOfMemoryTable,`
			`10001 /* MSG_OUT_OF_MEMORY_RETRY */`
			`);`

			`g_OutOfMemoryString = GetStringResourceExA (`
			`g_OutOfMemoryTable,`
			`10002 /* MSG_OUT_OF_MEMORY */`
			`);`

			`if (!g_OutOfMemoryString \|\| !g_OutOfMemoryRetry) {`
			`DEBUGMSG ((`
			`DBG_WARNING,`
			`"Cannot load out of memory messages; resources 10001 and 10002 do not exist"`
			`));`
			`}`

			`//`
			`// set the locale to the system locale. Not doing this can cause isspace`
			`// to AV in certain MBSCHR circumstances.`
			`//`
			`setlocale(LC_ALL,"");`
			`}`


			`VOID`
			`UtTerminate (`
			`VOID`
			`)`
			`{`
			`//`
			`// Free utility pools`
			`//`

			`ElTerminate ();`
			`ObsTerminate ();`

			`if (g_RegistryApiPool) {`
			`PmDestroyPool (g_RegistryApiPool);`
			`}`

			`if (g_PathsPool) {`
			`PmDestroyPool (g_PathsPool);`
			`}`

			`if (g_TextPool) {`
			`PmDestroyPool (g_TextPool);`
			`}`

			`if (g_ShortTermAllocTable) {`
			`DestroyAllocTable (g_ShortTermAllocTable);`
			`}`

			`if (g_OutOfMemoryTable) {`
			`DestroyAllocTable (g_OutOfMemoryTable);`
			`}`

			`FreeAllocationTracking();`

			`//`
			`// Clean up handles used by critical sections`
			`//`

			`DeleteOurCriticalSection (&g_MemAllocCs);`
			`DeleteOurCriticalSection (&g_MemDbCs);`
			`DeleteOurCriticalSection (&g_PmCs);`
			`DeleteOurCriticalSection (&g_MessageCs);`

			`//`
			`// MUST BE VERY LAST CODE TO RUN`
			`//`

			`DumpHeapStats();`
			`Exit_Log ();`
			`}`



			`#define WIDTH(rect) (rect.right - rect.left)`
			`#define HEIGHT(rect) (rect.bottom - rect.top)`

			`void`
			`CenterWindow (`
			`IN HWND hwnd,`
			`IN HWND Parent`
			`)`
			`{`
			`RECT WndRect, ParentRect;`
			`int x, y;`

			`if (!Parent) {`
			`ParentRect.left = 0;`
			`ParentRect.top = 0;`
			`ParentRect.right = GetSystemMetrics (SM_CXFULLSCREEN);`
			`ParentRect.bottom = GetSystemMetrics (SM_CYFULLSCREEN);`
			`} else {`
			`GetWindowRect (Parent, &ParentRect);`
			`}`

			`MYASSERT (IsWindow (hwnd));`

			`GetWindowRect (hwnd, &WndRect);`

			`x = ParentRect.left + (WIDTH(ParentRect) - WIDTH(WndRect)) / 2;`
			`y = ParentRect.top + (HEIGHT(ParentRect) - HEIGHT(WndRect)) / 2;`

			`SetWindowPos (hwnd, NULL, x, y, 0, 0, SWP_NOZORDER\|SWP_NOSIZE);`
			`}`


			`static INT g_MigUtilWaitCounter = 0;`
			`static HCURSOR g_MigUtilWaitCursor = NULL;`

			`VOID`
			`TurnOnWaitCursor (`
			`VOID`
			`)`

			`/*++`

			`Routine Description:`

			`TurnOnWaitCursor sets the cursor to IDC_WAIT. It maintains a use`
			`counter, so code requring the wait cursor can be nested.`

			`Arguments:`

			`none`

			`Return Value:`

			`none`

			`--*/`

			`{`
			`if (g_MigUtilWaitCounter == 0) {`
			`g_MigUtilWaitCursor = SetCursor (LoadCursor (NULL, IDC_WAIT));`
			`}`

			`g_MigUtilWaitCounter++;`
			`}`


			`VOID`
			`TurnOffWaitCursor (`
			`VOID`
			`)`

			`/*++`

			`Routine Description:`

			`TurnOffWaitCursor decrements the wait cursor counter, and if it`
			`reaches zero the cursor is restored.`

			`Arguments:`

			`none`

			`Return Value:`

			`none`

			`--*/`

			`{`
			`if (!g_MigUtilWaitCounter) {`
			`DEBUGMSG ((DBG_WHOOPS, "TurnOffWaitCursor called too many times"));`
			`} else {`
			`g_MigUtilWaitCounter--;`

			`if (!g_MigUtilWaitCounter) {`
			`SetCursor (g_MigUtilWaitCursor);`
			`}`
			`}`
			`}`


			`/*++`

			`Routine Description:`

			`Win9x does not support TryEnterOurCriticalSection, so we must implement`
			`our own version because it is quite a useful function.`

			`Arguments:`

			`pcs - A pointer to an OUR_CRITICAL_SECTION object`

			`Return Value:`

			`TRUE if the function succeeded, or FALSE if it failed. See Win32`
			`SDK docs on critical sections, as these routines are identical to`
			`the caller.`

			`--*/`

			`BOOL`
			`InitializeOurCriticalSection (`
			`OUR_CRITICAL_SECTION *pcs`
			`)`
			`{`
			`// Create initially signaled, auto-reset event`
			`pcs->EventHandle = CreateEvent (NULL, FALSE, TRUE, NULL);`
			`if (!pcs->EventHandle) {`
			`return FALSE;`
			`}`

			`return TRUE;`
			`}`


			`VOID`
			`DeleteOurCriticalSection (`
			`OUR_CRITICAL_SECTION *pcs`
			`)`
			`{`
			`if (pcs->EventHandle) {`
			`CloseHandle (pcs->EventHandle);`
			`pcs->EventHandle = NULL;`
			`}`

			`}`


			`BOOL`
			`EnterOurCriticalSection (`
			`OUR_CRITICAL_SECTION *pcs`
			`)`
			`{`
			`DWORD rc;`

			`// Wait for event to become signaled, then turn it off`
			`rc = WaitForSingleObject (pcs->EventHandle, INFINITE);`
			`if (rc == WAIT_OBJECT_0) {`
			`return TRUE;`
			`}`

			`return FALSE;`
			`}`

			`VOID`
			`LeaveOurCriticalSection (`
			`OUR_CRITICAL_SECTION *pcs`
			`)`
			`{`
			`SetEvent (pcs->EventHandle);`
			`}`

			`BOOL`
			`TryEnterOurCriticalSection (`
			`OUR_CRITICAL_SECTION *pcs`
			`)`
			`{`
			`DWORD rc;`

			`rc = WaitForSingleObject (pcs->EventHandle, 0);`
			`if (rc == WAIT_OBJECT_0) {`
			`return TRUE;`
			`}`

			`return FALSE;`
			`}`




			`HANDLE`
			`StartThread (`
			`IN PTHREAD_START_ROUTINE Address,`
			`IN PVOID Arg`
			`)`
			`{`
			`DWORD DontCare;`

			`return CreateThread (NULL, 0, Address, Arg, 0, &DontCare);`
			`}`