Leaked source code of windows server 2003
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/*++
Copyright (c) 1990 Microsoft Corporation
Module Name:
fdlistbx.c
Abstract:
Routines for handling the subclassed owner-draw listbox used by NT fdisk
to display the state of attached disks.
Author:
Ted Miller (tedm) 7-Jan-1992
--*/
#include "fdisk.h"
// constants used when listbox or its focus rectangle is
// scrolled/moved.
#define DIR_NONE 0
#define DIR_UP 1
#define DIR_DN 2
// original window procedure for our subclassed listbox
WNDPROC OldListBoxProc;
// item which has focus
DWORD LBCursorListBoxItem,LBCursorRegion;
BOOL LBCursorOn = FALSE;
VOID
ToggleLBCursor(
IN HDC hdc
);
VOID
ToggleRegion(
IN PDISKSTATE DiskState,
IN DWORD RegionIndex,
IN HDC hdc
);
LONG
ListBoxSubProc(
IN HWND hwnd,
IN UINT msg,
IN DWORD wParam,
IN LONG lParam
)
/*++
Routine Description:
This routine is the window procedure used for our subclassed listbox.
We subclass the listbox so that we can handle keyboard input processing.
All other messages are passed through to the original listbox procedure.
Significant keys are arrows, pageup/dn, tab, space, return, home, and end.
Control may be used to modify space and return.
Shift may be used to modify tab.
Arguments:
hwnd - window handle of listbox
msg - message #
wParam - user param # 1
lParam - user param # 2
Return Value:
see below
--*/
{
int focusDir = DIR_NONE;
USHORT vKey;
DWORD maxRegion;
PDISKSTATE diskState;
LONG topItem,
bottomWholeItem,
visibleItems;
RECT rc;
switch (msg) {
case WM_CHAR:
break;
case WM_KEYDOWN:
switch (vKey = LOWORD(wParam)) {
case VK_LEFT:
case VK_RIGHT:
case VK_UP:
case VK_DOWN:
ToggleLBCursor(NULL);
switch (vKey) {
case VK_LEFT:
LBCursorRegion = LBCursorRegion ? LBCursorRegion-1 : 0;
break;
case VK_RIGHT:
maxRegion = Disks[LBCursorListBoxItem]->RegionCount - 1;
if (LBCursorRegion < maxRegion) {
LBCursorRegion++;
}
break;
case VK_UP:
if (LBCursorListBoxItem) {
LBCursorListBoxItem--;
LBCursorRegion = 0;
focusDir = DIR_UP;
}
break;
case VK_DOWN:
if (LBCursorListBoxItem < DiskCount-1) {
LBCursorListBoxItem++;
LBCursorRegion = 0;
focusDir = DIR_DN;
}
break;
}
// don't allow list box cursor to fall on extended partition
diskState = Disks[LBCursorListBoxItem];
maxRegion = diskState->RegionCount - 1;
if (IsExtended(diskState->RegionArray[LBCursorRegion].SysID)) {
if (LBCursorRegion && ((vKey == VK_LEFT) || (LBCursorRegion == maxRegion))) {
LBCursorRegion--;
} else {
LBCursorRegion++;
}
}
ToggleLBCursor(NULL);
break;
case VK_TAB:
ToggleLBCursor(NULL);
if (GetKeyState(VK_SHIFT) & ~1) { // shift-tab
LBCursorListBoxItem--;
focusDir = DIR_UP;
} else {
LBCursorListBoxItem++;
focusDir = DIR_DN;
}
if (LBCursorListBoxItem == (DWORD)(-1)) {
LBCursorListBoxItem = DiskCount-1;
focusDir = DIR_DN;
} else if (LBCursorListBoxItem == DiskCount) {
LBCursorListBoxItem = 0;
focusDir = DIR_UP;
}
ResetLBCursorRegion();
ToggleLBCursor(NULL);
break;
case VK_HOME:
case VK_END:
ToggleLBCursor(NULL);
topItem = (vKey == VK_HOME) ? 0 : DiskCount-1;
SendMessage(hwndList, LB_SETTOPINDEX, (DWORD)topItem, 0);
LBCursorListBoxItem = topItem;
ResetLBCursorRegion();
ToggleLBCursor(NULL);
break;
case VK_PRIOR:
case VK_NEXT:
ToggleLBCursor(NULL);
topItem = SendMessage(hwndList, LB_GETTOPINDEX, 0, 0);
GetClientRect(hwndList,&rc);
visibleItems = (rc.bottom - rc.top) / GraphHeight;
if (!visibleItems) {
visibleItems = 1;
}
topItem = (vKey == VK_PRIOR)
? max(topItem - visibleItems, 0)
: min(topItem + visibleItems, (LONG)DiskCount-1);
SendMessage(hwndList, LB_SETTOPINDEX, (DWORD)topItem, 0);
LBCursorListBoxItem = SendMessage(hwndList, LB_GETTOPINDEX, 0, 0);
ResetLBCursorRegion();
ToggleLBCursor(NULL);
break;
case VK_RETURN:
case VK_SPACE:
// Select the region that currently has the list box selection cursor.
if (!Disks[LBCursorListBoxItem]->OffLine) {
Selection(GetKeyState(VK_CONTROL) & ~1, // strip toggle bit
Disks[LBCursorListBoxItem],
LBCursorRegion);
}
break;
}
// now scroll the newly focused item into view if necessary
switch (focusDir) {
case DIR_UP:
if (LBCursorListBoxItem < (DWORD)SendMessage(hwndList, LB_GETTOPINDEX, 0, 0)) {
SendMessage(hwndList, LB_SETTOPINDEX, LBCursorListBoxItem, 0);
}
break;
case DIR_DN:
GetClientRect(hwndList, &rc);
topItem = SendMessage(hwndList, LB_GETTOPINDEX, 0, 0);
bottomWholeItem = topItem + ((rc.bottom - rc.top) / GraphHeight) - 1;
if (bottomWholeItem < topItem) {
bottomWholeItem = topItem;
}
if ((DWORD)bottomWholeItem > DiskCount-1) {
bottomWholeItem = DiskCount-1;
}
if (LBCursorListBoxItem > (DWORD)bottomWholeItem) {
SendMessage(hwndList,
LB_SETTOPINDEX,
topItem + LBCursorListBoxItem - bottomWholeItem,
0);
}
break;
}
break;
default:
return CallWindowProc(OldListBoxProc, hwnd, msg, wParam, lParam);
}
return 0;
}
VOID
SubclassListBox(
IN HWND hwnd
)
{
OldListBoxProc = (WNDPROC)GetWindowLong(hwnd, GWL_WNDPROC);
SetWindowLong(hwnd, GWL_WNDPROC, (LONG)ListBoxSubProc);
// There is a scantily documented 'feature' of a listbox wherein it will
// use its parent's DC. This means that drawing is not always clipped to
// the client area of the listbox. Seeing as we're subclassing listboxes
// anyway, take care of this here.
SetClassLong(hwnd, GCL_STYLE, GetClassLong(hwnd, GCL_STYLE) & ~CS_PARENTDC);
}
VOID
DeselectSelectedRegions(
VOID
)
/*++
Routine Description:
This routine visually unselects all selected regions. The selection
state is also updated in the master disk structures.
Arguments:
None.
Return Value:
None.
--*/
{
DWORD i,
j;
PDISKSTATE diskState;
for (i=0; i<DiskCount; i++) {
diskState = Disks[i];
for (j=0; j<diskState->RegionCount; j++) {
if (diskState->Selected[j]) {
diskState->Selected[j] = FALSE;
ToggleRegion(diskState, j, NULL);
}
}
}
}
VOID
Selection(
IN BOOL MultipleSel,
IN PDISKSTATE DiskState,
IN DWORD RegionIndex
)
/*++
Routine Description:
This routine handles a user selection of a disk region. It is called
directly for a keyboard selection or indirectly for a mouse selection.
If not a multiple selection, all selected regions are deselected.
The focus rectangle is moved to the selected region, which is then
visually selected.
Arguments:
MultipleSel - whether the user has made a multiple selection
(ie, control-clicked).
DiskState - master disk structure for disk containing selected region
RegionIndex - index of selected region on the disk
Return Value:
None.
--*/
{
PFT_OBJECT ftObject,
ftObj;
PFT_OBJECT_SET ftSet;
ULONG disk,
r;
if (!MultipleSel) {
// need to deselect all selected regions first.
DeselectSelectedRegions();
}
// remove the list box selection cursor from its previous region
ToggleLBCursor(NULL);
// The selected region might be part of an ft object set. If it is,
// scan each region in each disk and select each item in the set.
if (ftObject = GET_FT_OBJECT(&DiskState->RegionArray[RegionIndex])) {
ftSet = ftObject->Set;
for (disk=0; disk<DiskCount; disk++) {
PDISKSTATE diskState = Disks[disk];
for (r=0; r<diskState->RegionCount; r++) {
PREGION_DESCRIPTOR regionDescriptor = &diskState->RegionArray[r];
if (DmSignificantRegion(regionDescriptor)) {
if (ftObj = GET_FT_OBJECT(regionDescriptor)) {
if (ftObj->Set == ftSet) {
diskState->Selected[r] = (BOOLEAN)(!diskState->Selected[r]);
ToggleRegion(diskState, r, NULL);
}
}
}
}
}
} else {
DiskState->Selected[RegionIndex] = (BOOLEAN)(!DiskState->Selected[RegionIndex]);
ToggleRegion(DiskState, RegionIndex, NULL);
}
LBCursorListBoxItem = DiskState->Disk;
LBCursorRegion = RegionIndex;
ToggleLBCursor(NULL);
AdjustMenuAndStatus();
}
VOID
MouseSelection(
IN BOOL MultipleSel,
IN OUT PPOINT Point
)
/*++
Routine Description:
This routine is called when the user clicks in the list box. It determines
which disk region the user has clicked on before calling the common
selection subroutine.
Arguments:
MultipleSel - whether the user has made a multiple selection
(ie, control-clicked).
point - screen coords of the click
Return Value:
None.
--*/
{
PDISKSTATE diskState;
DWORD selectedItem;
DWORD x,
y;
DWORD i;
RECT rc;
BOOL valid;
if ((selectedItem = SendMessage(hwndList, LB_GETCURSEL, 0, 0)) == LB_ERR) {
return;
}
// user has clicked on a list box item.
diskState = Disks[selectedItem];
// Ignore clicks on off-line disks.
if (diskState->OffLine) {
return;
}
ScreenToClient(hwndList, Point);
x = Point->x;
y = Point->y;
GetClientRect(hwndList,&rc);
// first make sure that the click was within a bar and not in space
// between two bars
for (valid=FALSE, i=rc.top; i<=(DWORD)rc.bottom; i+=GraphHeight) {
if ((y >= i+BarTopYOffset) && (y <= i+BarBottomYOffset)) {
valid = TRUE;
break;
}
}
if (!valid) {
return;
}
// determine which region he has clicked on
for (i=0; i<diskState->RegionCount; i++) {
if ((x >= (unsigned)diskState->LeftRight[i].Left) && (x <= (unsigned)diskState->LeftRight[i].Right)) {
break;
}
}
if (i == diskState->RegionCount) {
return; // region not found. Ignore the click.
}
Selection(MultipleSel, diskState, i);
}
LONG
CalcBarTop(
DWORD Bar
)
/*++
Routine Description:
This routine calculates the current top y coord of a given bar.
The value is in listbox client coords.
Arguments:
Bar - # of bar whose position is desired
Return Value:
Y-coord, or -1 if bar is not visible.
--*/
{
LONG barDelta = (LONG)Bar - SendMessage(hwndList, LB_GETTOPINDEX, 0, 0);
LONG pos = -1;
RECT rc;
if (barDelta >= 0) { // BUGBUG check bottom too
GetClientRect(hwndList,&rc);
pos = rc.top + (barDelta * GraphHeight);
}
return pos;
}
VOID
ResetLBCursorRegion(
VOID
)
/*++
Routine Description:
This routine resets the list box focus cursor to the 0th (leftmost)
region on the current disk. If the 0th region is the extended
partition, focus is set to the first logical volume or free space
with the extended partition instead.
Arguments:
None.
Return Value:
None.
--*/
{
PDISKSTATE diskState = Disks[LBCursorListBoxItem];
unsigned i;
LBCursorRegion = 0;
if (IsExtended(diskState->RegionArray[LBCursorRegion].SysID)) {
for (i=0; i<diskState->RegionCount; i++) {
if (diskState->RegionArray[i].RegionType == REGION_LOGICAL) {
LBCursorRegion = i;
return;
}
}
FDASSERT(0);
}
}
VOID
ToggleLBCursor(
IN HDC hdc
)
/*++
Routine Description:
This routine visually toggles the focus state of the disk region
described by the LBCursorListBoxItem and LBCursorRegion globals.
Arguments:
hdc - If non-NULL, device context to use for drawing. If NULL,
we'll first get a DC via GetDC().
Return Value:
None.
--*/
{
PDISKSTATE lBCursorDisk = Disks[LBCursorListBoxItem];
LONG barTop = CalcBarTop(LBCursorListBoxItem);
RECT rc;
HDC hdcActual;
if (barTop != -1) {
hdcActual = hdc ? hdc : GetDC(hwndList);
LBCursorOn = !LBCursorOn;
rc.left = lBCursorDisk->LeftRight[LBCursorRegion].Left;
rc.right = lBCursorDisk->LeftRight[LBCursorRegion].Right + 1;
rc.top = barTop + BarTopYOffset;
rc.bottom = barTop + BarBottomYOffset;
FrameRect(hdcActual,
&rc,
GetStockObject(LBCursorOn ? WHITE_BRUSH : BLACK_BRUSH));
if (LBCursorOn) {
// BUGBUG really want a dotted line.
DrawFocusRect(hdcActual, &rc);
}
if (!hdc) {
ReleaseDC(hwndList, hdcActual);
}
}
}
VOID
ForceLBRedraw(
VOID
)
/*++
Routine Description:
This routine forces redraw of the listbox by invalidating its
entire client area.
Arguments:
None.
Return Value:
None.
--*/
{
InvalidateRect(hwndList,NULL,FALSE);
UpdateWindow(hwndList);
}
VOID
ToggleRegion(
IN PDISKSTATE DiskState,
IN DWORD RegionIndex,
IN HDC hdc
)
/*++
Routine Description:
This routine visually toggles the selection state of a given disk region.
Arguments:
DiskState - master structure for disk containing region to select
RegionIndex - which region on the disk to toggle
hdc - if non-NULL, device context to use for drawing. If NULL, we'll
first get a device context via GetDC().
Return Value:
None.
--*/
{
PLEFTRIGHT leftRight = &DiskState->LeftRight[RegionIndex];
LONG barTop = CalcBarTop(DiskState->Disk); // BUGBUG disk# as lb index#
BOOL selected = (BOOL)DiskState->Selected[RegionIndex];
HBRUSH hbr = GetStockObject(BLACK_BRUSH);
HDC hdcActual;
RECT rc;
int i;
if (barTop != -1) {
hdcActual = hdc ? hdc : GetDC(hwndList);
rc.left = leftRight->Left + 1;
rc.right = leftRight->Right;
rc.top = barTop + BarTopYOffset + 1;
rc.bottom = barTop + BarBottomYOffset - 1;
if (selected) {
for (i=0; i<SELECTION_THICKNESS; i++) {
FrameRect(hdcActual, &rc, hbr);
InflateRect(&rc, -1, -1);
}
} else {
// Blt the region from the off-screen bitmap onto the
// screen. But first exclude the center of the region
// from the clip region so we only blt the necessary bits.
// This sppeds up selections noticably.
InflateRect(&rc, -SELECTION_THICKNESS, -SELECTION_THICKNESS);
ExcludeClipRect(hdcActual, rc.left, rc.top, rc.right, rc.bottom);
BitBlt(hdcActual,
leftRight->Left,
barTop + BarTopYOffset,
leftRight->Right - leftRight->Left,
barTop + BarBottomYOffset,
DiskState->hDCMem,
leftRight->Left,
BarTopYOffset,
SRCCOPY);
}
if (!hdc) {
ReleaseDC(hwndList, hdcActual);
}
}
}
DWORD
InitializeListBox(
IN HWND hwndListBox
)
/*++
Routine Description:
This routine sets up the list box. This includes creating disk state
structures, drawing the graphs for each disk off screen, and adding the
disks to the list box.
It also includes determining the initial volume labels and type names
for all significant partitions.
Arguments:
hwndListBox - handle of the list box that will hold the disk graphs
Return Value:
Windows error code (esp. out of memory)
--*/
{
PPERSISTENT_REGION_DATA regionData;
TCHAR windowsDir[MAX_PATH];
unsigned i;
PDISKSTATE diskState;
DWORD ec;
ULONG r;
BOOL diskSignaturesCreated,
temp;
// First, create the array that will hold the diskstates,
// the IsDiskRemovable array and the RemovableDiskReservedDriveLetters
// array.
Disks = Malloc(DiskCount * sizeof(PDISKSTATE));
IsDiskRemovable = (PBOOLEAN)Malloc(DiskCount * sizeof(BOOLEAN));
RemovableDiskReservedDriveLetters = (PCHAR)Malloc(DiskCount * sizeof(CHAR));
// Determine which disks are removable and which are unpartitioned.
for (i=0; i<DiskCount; i++) {
IsDiskRemovable[i] = IsRemovable( i );
}
// next, create all disk states
FDASSERT(DiskCount);
diskSignaturesCreated = FALSE;
for (i=0; i<DiskCount; i++) {
// first create the disk state structure
CreateDiskState(&diskState, i, &temp);
diskSignaturesCreated = diskSignaturesCreated || temp;
Disks[i] = diskState;
// next determine the state of the disk's partitioning scheme
DeterminePartitioningState(diskState);
// Next create a blank logical disk structure for each region.
for (r=0; r<diskState->RegionCount; r++) {
if (DmSignificantRegion(&diskState->RegionArray[r])) {
regionData = Malloc(sizeof(PERSISTENT_REGION_DATA));
DmInitPersistentRegionData(regionData, NULL, NULL, NULL, NO_DRIVE_LETTER_YET);
regionData->VolumeExists = TRUE;
} else {
regionData = NULL;
}
DmSetPersistentRegionData(&diskState->RegionArray[r], regionData);
}
// add the item to the listbox
while (((ec = SendMessage(hwndListBox, LB_ADDSTRING, 0, 0)) == LB_ERR) || (ec == LB_ERRSPACE)) {
ConfirmOutOfMemory();
}
}
// Read the configuration registry
if ((ec = InitializeFt(diskSignaturesCreated)) != NO_ERROR) {
ErrorDialog(ec);
return ec;
}
// Determine drive letter mappings
InitializeDriveLetterInfo();
// Determine volume labels and type names.
InitVolumeLabelsAndTypeNames();
// Determine which disk is the boot disk.
if (GetWindowsDirectory(windowsDir, sizeof(windowsDir)/sizeof(TCHAR)) < 2 ||
windowsDir[1] != TEXT(':')) {
BootDiskNumber = (ULONG)-1;
BootPartitionNumber = (ULONG)-1;
} else {
BootDiskNumber = GetDiskNumberFromDriveLetter((CHAR)windowsDir[0]);
BootPartitionNumber = GetPartitionNumberFromDriveLetter((CHAR)windowsDir[0]);
}
// Locate and create data structures for any DoubleSpace volumes
DblSpaceInitialize();
for (i=0; i<DiskCount; i++) {
DrawDiskBar(Disks[i]);
}
return NO_ERROR;
}
VOID
WMDrawItem(
IN PDRAWITEMSTRUCT pDrawItem
)
{
DWORD temp;
PDISKSTATE pDiskState;
if ((pDrawItem->itemID != (DWORD)(-1))
&& (pDrawItem->itemAction == ODA_DRAWENTIRE)) {
pDiskState = Disks[pDrawItem->itemID];
// blt the disk's bar from the off-screen bitmap to the screen
BitBlt(pDrawItem->hDC,
pDrawItem->rcItem.left,
pDrawItem->rcItem.top,
pDrawItem->rcItem.right - pDrawItem->rcItem.left + 1,
pDrawItem->rcItem.bottom - pDrawItem->rcItem.top + 1,
pDiskState->hDCMem,
0,
0,
SRCCOPY);
// if we just overwrote the focus cursor, redraw it
if (pDrawItem->itemID == LBCursorListBoxItem) {
LBCursorOn = FALSE;
ToggleLBCursor(pDrawItem->hDC);
}
// select any items selected in this bar
for (temp=0; temp<pDiskState->RegionCount; temp++) {
if (pDiskState->Selected[temp]) {
ToggleRegion(pDiskState, temp, pDrawItem->hDC);
}
}
}
}