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reactos/base/setup/usetup/usetup.c

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/*
* ReactOS kernel
* Copyright (C) 2002, 2003, 2004 ReactOS Team
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS text-mode setup
* FILE: base/setup/usetup/usetup.c
* PURPOSE: Text-mode setup
* PROGRAMMERS: Casper S. Hornstrup (chorns@users.sourceforge.net)
* Hervé Poussineau (hpoussin@reactos.org)
*/
#include <usetup.h>
#include <math.h>
#include <ntstrsafe.h>
#include "bootsup.h"
#include "chkdsk.h"
#include "cmdcons.h"
#include "devinst.h"
#include "format.h"
#define NDEBUG
#include <debug.h>
/* GLOBALS & LOCALS *********************************************************/
HANDLE ProcessHeap;
BOOLEAN IsUnattendedSetup = FALSE;
static USETUP_DATA USetupData;
/* The partition where to perform the installation */
static PPARTENTRY InstallPartition = NULL;
/*
* The system partition we will actually use. It can be different from
* PartitionList->SystemPartition in case we don't support it, or we install
* on a removable disk.
* We may indeed not support the original system partition in case we do not
* have write support on it. Please note that this situation is partly a HACK
* and MUST NEVER happen on architectures where real system partitions are
* mandatory (because then they are formatted in FAT FS and we support write
* operation on them).
*/
static PPARTENTRY SystemPartition = NULL;
/* OTHER Stuff *****/
PCWSTR SelectedLanguageId;
static WCHAR DefaultLanguage[20]; // Copy of string inside LanguageList
static WCHAR DefaultKBLayout[20]; // Copy of string inside KeyboardList
static BOOLEAN RepairUpdateFlag = FALSE;
/* Global partition list on the system */
static PPARTLIST PartitionList = NULL;
/* Currently selected partition entry in the list */
static PPARTENTRY CurrentPartition = NULL;
/* List of supported file systems for the partition to be formatted */
static PFILE_SYSTEM_LIST FileSystemList = NULL;
/* Machine state for the formatter */
static PPARTENTRY TempPartition = NULL;
static FORMATMACHINESTATE FormatState = Start;
/*****************************************************/
static PNTOS_INSTALLATION CurrentInstallation = NULL;
static PGENERIC_LIST NtOsInstallsList = NULL;
#ifdef __REACTOS__ /* HACK */
/* FONT SUBSTITUTION WORKAROUND *************************************************/
/* For font file check */
FONTSUBSTSETTINGS s_SubstSettings = { FALSE };
static void
DoWatchDestFileName(LPCWSTR FileName)
{
if (FileName[0] == 'm' || FileName[0] == 'M')
{
if (wcsicmp(FileName, L"mingliu.ttc") == 0)
{
DPRINT("mingliu.ttc found\n");
s_SubstSettings.bFoundFontMINGLIU = TRUE;
}
else if (wcsicmp(FileName, L"msgothic.ttc") == 0)
{
DPRINT("msgothic.ttc found\n");
s_SubstSettings.bFoundFontMSGOTHIC = TRUE;
}
else if (wcsicmp(FileName, L"msmincho.ttc") == 0)
{
DPRINT("msmincho.ttc found\n");
s_SubstSettings.bFoundFontMSMINCHO = TRUE;
}
else if (wcsicmp(FileName, L"mssong.ttf") == 0)
{
DPRINT("mssong.ttf found\n");
s_SubstSettings.bFoundFontMSSONG = TRUE;
}
}
else
{
if (wcsicmp(FileName, L"simsun.ttc") == 0)
{
DPRINT("simsun.ttc found\n");
s_SubstSettings.bFoundFontSIMSUN = TRUE;
}
else if (wcsicmp(FileName, L"gulim.ttc") == 0)
{
DPRINT("gulim.ttc found\n");
s_SubstSettings.bFoundFontGULIM = TRUE;
}
else if (wcsicmp(FileName, L"batang.ttc") == 0)
{
DPRINT("batang.ttc found\n");
s_SubstSettings.bFoundFontBATANG = TRUE;
}
}
}
#endif /* HACK */
/* FUNCTIONS ****************************************************************/
static VOID
PrintString(IN PCSTR fmt,...)
{
CHAR buffer[512];
va_list ap;
UNICODE_STRING UnicodeString;
ANSI_STRING AnsiString;
va_start(ap, fmt);
vsprintf(buffer, fmt, ap);
va_end(ap);
RtlInitAnsiString(&AnsiString, buffer);
RtlAnsiStringToUnicodeString(&UnicodeString, &AnsiString, TRUE);
NtDisplayString(&UnicodeString);
RtlFreeUnicodeString(&UnicodeString);
}
static VOID
DrawBox(IN SHORT xLeft,
IN SHORT yTop,
IN SHORT Width,
IN SHORT Height)
{
COORD coPos;
DWORD Written;
/* Draw upper left corner */
coPos.X = xLeft;
coPos.Y = yTop;
FillConsoleOutputCharacterA(StdOutput,
0xDA, // '+',
1,
coPos,
&Written);
/* Draw upper edge */
coPos.X = xLeft + 1;
coPos.Y = yTop;
FillConsoleOutputCharacterA(StdOutput,
0xC4, // '-',
Width - 2,
coPos,
&Written);
/* Draw upper right corner */
coPos.X = xLeft + Width - 1;
coPos.Y = yTop;
FillConsoleOutputCharacterA(StdOutput,
0xBF, // '+',
1,
coPos,
&Written);
/* Draw right edge, inner space and left edge */
for (coPos.Y = yTop + 1; coPos.Y < yTop + Height - 1; coPos.Y++)
{
coPos.X = xLeft;
FillConsoleOutputCharacterA(StdOutput,
0xB3, // '|',
1,
coPos,
&Written);
coPos.X = xLeft + 1;
FillConsoleOutputCharacterA(StdOutput,
' ',
Width - 2,
coPos,
&Written);
coPos.X = xLeft + Width - 1;
FillConsoleOutputCharacterA(StdOutput,
0xB3, // '|',
1,
coPos,
&Written);
}
/* Draw lower left corner */
coPos.X = xLeft;
coPos.Y = yTop + Height - 1;
FillConsoleOutputCharacterA(StdOutput,
0xC0, // '+',
1,
coPos,
&Written);
/* Draw lower edge */
coPos.X = xLeft + 1;
coPos.Y = yTop + Height - 1;
FillConsoleOutputCharacterA(StdOutput,
0xC4, // '-',
Width - 2,
coPos,
&Written);
/* Draw lower right corner */
coPos.X = xLeft + Width - 1;
coPos.Y = yTop + Height - 1;
FillConsoleOutputCharacterA(StdOutput,
0xD9, // '+',
1,
coPos,
&Written);
}
VOID
PopupError(PCCH Text,
PCCH Status,
PINPUT_RECORD Ir,
ULONG WaitEvent)
{
SHORT yTop;
SHORT xLeft;
COORD coPos;
DWORD Written;
ULONG Length;
ULONG MaxLength;
ULONG Lines;
PCHAR p;
PCCH pnext;
BOOLEAN LastLine;
SHORT Width;
SHORT Height;
/* Count text lines and longest line */
MaxLength = 0;
Lines = 0;
pnext = Text;
while (TRUE)
{
p = strchr(pnext, '\n');
if (p == NULL)
{
Length = strlen(pnext);
LastLine = TRUE;
}
else
{
Length = (ULONG)(p - pnext);
LastLine = FALSE;
}
Lines++;
if (Length > MaxLength)
MaxLength = Length;
if (LastLine)
break;
pnext = p + 1;
}
/* Check length of status line */
if (Status != NULL)
{
Length = strlen(Status);
if (Length > MaxLength)
MaxLength = Length;
}
Width = MaxLength + 4;
Height = Lines + 2;
if (Status != NULL)
Height += 2;
yTop = (yScreen - Height) / 2;
xLeft = (xScreen - Width) / 2;
/* Set screen attributes */
coPos.X = xLeft;
for (coPos.Y = yTop; coPos.Y < yTop + Height; coPos.Y++)
{
FillConsoleOutputAttribute(StdOutput,
FOREGROUND_RED | BACKGROUND_WHITE,
Width,
coPos,
&Written);
}
DrawBox(xLeft, yTop, Width, Height);
/* Print message text */
coPos.Y = yTop + 1;
pnext = Text;
while (TRUE)
{
p = strchr(pnext, '\n');
if (p == NULL)
{
Length = strlen(pnext);
LastLine = TRUE;
}
else
{
Length = (ULONG)(p - pnext);
LastLine = FALSE;
}
if (Length != 0)
{
coPos.X = xLeft + 2;
WriteConsoleOutputCharacterA(StdOutput,
pnext,
Length,
coPos,
&Written);
}
if (LastLine)
break;
coPos.Y++;
pnext = p + 1;
}
/* Print separator line and status text */
if (Status != NULL)
{
coPos.Y = yTop + Height - 3;
coPos.X = xLeft;
FillConsoleOutputCharacterA(StdOutput,
0xC3, // '+',
1,
coPos,
&Written);
coPos.X = xLeft + 1;
FillConsoleOutputCharacterA(StdOutput,
0xC4, // '-',
Width - 2,
coPos,
&Written);
coPos.X = xLeft + Width - 1;
FillConsoleOutputCharacterA(StdOutput,
0xB4, // '+',
1,
coPos,
&Written);
coPos.Y++;
coPos.X = xLeft + 2;
WriteConsoleOutputCharacterA(StdOutput,
Status,
min(strlen(Status), (SIZE_T)Width - 4),
coPos,
&Written);
}
if (WaitEvent == POPUP_WAIT_NONE)
return;
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if (WaitEvent == POPUP_WAIT_ANY_KEY ||
Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D)
{
return;
}
}
}
/*
* Confirm quit setup
* RETURNS
* TRUE: Quit setup.
* FALSE: Don't quit setup.
*/
static BOOL
ConfirmQuit(PINPUT_RECORD Ir)
{
BOOL Result = FALSE;
MUIDisplayError(ERROR_NOT_INSTALLED, NULL, POPUP_WAIT_NONE);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
Result = TRUE;
break;
}
else if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
{
Result = FALSE;
break;
}
}
return Result;
}
static VOID
UpdateKBLayout(VOID)
{
PGENERIC_LIST_ENTRY ListEntry;
PCWSTR pszNewLayout;
pszNewLayout = MUIDefaultKeyboardLayout(SelectedLanguageId);
if (USetupData.LayoutList == NULL)
{
USetupData.LayoutList = CreateKeyboardLayoutList(USetupData.SetupInf, SelectedLanguageId, DefaultKBLayout);
if (USetupData.LayoutList == NULL)
{
/* FIXME: Handle error! */
return;
}
}
/* Search for default layout (if provided) */
if (pszNewLayout != NULL)
{
for (ListEntry = GetFirstListEntry(USetupData.LayoutList); ListEntry;
ListEntry = GetNextListEntry(ListEntry))
{
if (!wcscmp(pszNewLayout, ((PGENENTRY)GetListEntryData(ListEntry))->Id))
{
SetCurrentListEntry(USetupData.LayoutList, ListEntry);
break;
}
}
}
}
static NTSTATUS
NTAPI
GetSettingDescription(
IN PGENERIC_LIST_ENTRY Entry,
OUT PSTR Buffer,
IN SIZE_T cchBufferSize)
{
return RtlStringCchPrintfA(Buffer, cchBufferSize, "%S",
((PGENENTRY)GetListEntryData(Entry))->Value);
}
static NTSTATUS
NTAPI
GetNTOSInstallationName(
IN PGENERIC_LIST_ENTRY Entry,
OUT PSTR Buffer,
IN SIZE_T cchBufferSize)
{
PNTOS_INSTALLATION NtOsInstall = (PNTOS_INSTALLATION)GetListEntryData(Entry);
PPARTENTRY PartEntry = NtOsInstall->PartEntry;
if (PartEntry && PartEntry->DriveLetter)
{
/* We have retrieved a partition that is mounted */
return RtlStringCchPrintfA(Buffer, cchBufferSize,
"%C:%S \"%S\"",
PartEntry->DriveLetter,
NtOsInstall->PathComponent,
NtOsInstall->InstallationName);
}
else
{
/* We failed somewhere, just show the NT path */
return RtlStringCchPrintfA(Buffer, cchBufferSize,
"%wZ \"%S\"",
&NtOsInstall->SystemNtPath,
NtOsInstall->InstallationName);
}
}
/*
* Displays the LanguagePage.
*
* Next pages: WelcomePage, QuitPage
*
* SIDEEFFECTS
* Init SelectedLanguageId
* Init USetupData.LanguageId
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
LanguagePage(PINPUT_RECORD Ir)
{
GENERIC_LIST_UI ListUi;
PCWSTR NewLanguageId;
BOOL RefreshPage = FALSE;
/* Initialize the computer settings list */
if (USetupData.LanguageList == NULL)
{
USetupData.LanguageList = CreateLanguageList(USetupData.SetupInf, DefaultLanguage);
if (USetupData.LanguageList == NULL)
{
PopupError("Setup failed to initialize available translations", NULL, NULL, POPUP_WAIT_NONE);
return WELCOME_PAGE;
}
}
SelectedLanguageId = DefaultLanguage;
USetupData.LanguageId = 0;
/* Load the font */
SetConsoleCodePage();
UpdateKBLayout();
/*
* If there is no language or just a single one in the list,
* skip the language selection process altogether.
*/
if (GetNumberOfListEntries(USetupData.LanguageList) <= 1)
{
USetupData.LanguageId = (LANGID)(wcstol(SelectedLanguageId, NULL, 16) & 0xFFFF);
return WELCOME_PAGE;
}
InitGenericListUi(&ListUi, USetupData.LanguageList, GetSettingDescription);
DrawGenericList(&ListUi,
2, 18,
xScreen - 3,
yScreen - 3);
ScrollToPositionGenericList(&ListUi, GetDefaultLanguageIndex());
MUIDisplayPage(LANGUAGE_PAGE);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_DOWN)) /* DOWN */
{
ScrollDownGenericList(&ListUi);
RefreshPage = TRUE;
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_UP)) /* UP */
{
ScrollUpGenericList(&ListUi);
RefreshPage = TRUE;
}
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_NEXT)) /* PAGE DOWN */
{
ScrollPageDownGenericList(&ListUi);
RefreshPage = TRUE;
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_PRIOR)) /* PAGE UP */
{
ScrollPageUpGenericList(&ListUi);
RefreshPage = TRUE;
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
else
RedrawGenericList(&ListUi);
}
else if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
{
ASSERT(GetNumberOfListEntries(USetupData.LanguageList) >= 1);
SelectedLanguageId =
((PGENENTRY)GetListEntryData(GetCurrentListEntry(USetupData.LanguageList)))->Id;
USetupData.LanguageId = (LANGID)(wcstol(SelectedLanguageId, NULL, 16) & 0xFFFF);
if (wcscmp(SelectedLanguageId, DefaultLanguage))
{
UpdateKBLayout();
}
/* Load the font */
SetConsoleCodePage();
return WELCOME_PAGE;
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar > 0x60) && (Ir->Event.KeyEvent.uChar.AsciiChar < 0x7b))
{
/* a-z */
GenericListKeyPress(&ListUi, Ir->Event.KeyEvent.uChar.AsciiChar);
RefreshPage = TRUE;
}
if (RefreshPage)
{
ASSERT(GetNumberOfListEntries(USetupData.LanguageList) >= 1);
NewLanguageId =
((PGENENTRY)GetListEntryData(GetCurrentListEntry(USetupData.LanguageList)))->Id;
if (wcscmp(SelectedLanguageId, NewLanguageId))
{
/* Clear the language page */
MUIClearPage(LANGUAGE_PAGE);
SelectedLanguageId = NewLanguageId;
/* Load the font */
SetConsoleCodePage();
/* Redraw language selection page in native language */
MUIDisplayPage(LANGUAGE_PAGE);
}
RefreshPage = FALSE;
}
}
return WELCOME_PAGE;
}
/*
* Start page
*
* Next pages:
* LanguagePage (at once, default)
* InstallIntroPage (at once, if unattended)
* QuitPage
*
* SIDEEFFECTS
* Init Sdi
* Init USetupData.SourcePath
* Init USetupData.SourceRootPath
* Init USetupData.SourceRootDir
* Init USetupData.SetupInf
* Init USetupData.RequiredPartitionDiskSpace
* Init IsUnattendedSetup
* If unattended, init *List and sets the Codepage
* If unattended, init SelectedLanguageId
* If unattended, init USetupData.LanguageId
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
SetupStartPage(PINPUT_RECORD Ir)
{
ULONG Error;
PGENERIC_LIST_ENTRY ListEntry;
PCWSTR LocaleId;
MUIDisplayPage(SETUP_INIT_PAGE);
/* Initialize Setup, phase 1 */
Error = InitializeSetup(&USetupData, 1);
if (Error != ERROR_SUCCESS)
{
MUIDisplayError(Error, Ir, POPUP_WAIT_ENTER);
return QUIT_PAGE;
}
/* Initialize the user-mode PnP manager */
if (!EnableUserModePnpManager())
DPRINT1("The user-mode PnP manager could not initialize, expect unavailable devices!\n");
/* Wait for any immediate pending installations to finish */
if (WaitNoPendingInstallEvents(NULL) != STATUS_WAIT_0)
DPRINT1("WaitNoPendingInstallEvents() failed to wait!\n");
CheckUnattendedSetup(&USetupData);
if (IsUnattendedSetup)
{
// TODO: Read options from inf
/* Load the hardware, language and keyboard layout lists */
USetupData.ComputerList = CreateComputerTypeList(USetupData.SetupInf);
USetupData.DisplayList = CreateDisplayDriverList(USetupData.SetupInf);
USetupData.KeyboardList = CreateKeyboardDriverList(USetupData.SetupInf);
USetupData.LanguageList = CreateLanguageList(USetupData.SetupInf, DefaultLanguage);
/* new part */
SelectedLanguageId = DefaultLanguage;
wcscpy(DefaultLanguage, USetupData.LocaleID);
USetupData.LanguageId = (LANGID)(wcstol(SelectedLanguageId, NULL, 16) & 0xFFFF);
USetupData.LayoutList = CreateKeyboardLayoutList(USetupData.SetupInf, SelectedLanguageId, DefaultKBLayout);
/* first we hack LanguageList */
for (ListEntry = GetFirstListEntry(USetupData.LanguageList); ListEntry;
ListEntry = GetNextListEntry(ListEntry))
{
LocaleId = ((PGENENTRY)GetListEntryData(ListEntry))->Id;
if (!wcsicmp(USetupData.LocaleID, LocaleId))
{
DPRINT("found %S in LanguageList\n", LocaleId);
SetCurrentListEntry(USetupData.LanguageList, ListEntry);
break;
}
}
/* now LayoutList */
for (ListEntry = GetFirstListEntry(USetupData.LayoutList); ListEntry;
ListEntry = GetNextListEntry(ListEntry))
{
LocaleId = ((PGENENTRY)GetListEntryData(ListEntry))->Id;
if (!wcsicmp(USetupData.LocaleID, LocaleId))
{
DPRINT("found %S in LayoutList\n", LocaleId);
SetCurrentListEntry(USetupData.LayoutList, ListEntry);
break;
}
}
SetConsoleCodePage();
return INSTALL_INTRO_PAGE;
}
return LANGUAGE_PAGE;
}
/*
* Displays the WelcomePage.
*
* Next pages:
* InstallIntroPage (default)
* RepairIntroPage
* RecoveryPage
* LicensePage
* QuitPage
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
WelcomePage(PINPUT_RECORD Ir)
{
MUIDisplayPage(WELCOME_PAGE);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
break;
}
else if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
{
return INSTALL_INTRO_PAGE;
}
else if (toupper(Ir->Event.KeyEvent.uChar.AsciiChar) == 'R') /* R */
{
return RECOVERY_PAGE; // REPAIR_INTRO_PAGE;
}
else if (toupper(Ir->Event.KeyEvent.uChar.AsciiChar) == 'L') /* L */
{
return LICENSE_PAGE;
}
}
return WELCOME_PAGE;
}
/*
* Displays the License page.
*
* Next page:
* WelcomePage (default)
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
LicensePage(PINPUT_RECORD Ir)
{
MUIDisplayPage(LICENSE_PAGE);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
{
return WELCOME_PAGE;
}
}
return LICENSE_PAGE;
}
/*
* Displays the RepairIntroPage.
*
* Next pages:
* RebootPage (default)
* InstallIntroPage
* RecoveryPage
* IntroPage
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
RepairIntroPage(PINPUT_RECORD Ir)
{
MUIDisplayPage(REPAIR_INTRO_PAGE);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
{
return REBOOT_PAGE;
}
else if (toupper(Ir->Event.KeyEvent.uChar.AsciiChar) == 'U') /* U */
{
RepairUpdateFlag = TRUE;
return INSTALL_INTRO_PAGE;
}
else if (toupper(Ir->Event.KeyEvent.uChar.AsciiChar) == 'R') /* R */
{
return RECOVERY_PAGE;
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == VK_ESCAPE) /* ESC */
{
return WELCOME_PAGE;
}
}
return REPAIR_INTRO_PAGE;
}
/*
* Displays the UpgradeRepairPage.
*
* Next pages:
* RebootPage (default)
* InstallIntroPage
* RecoveryPage
* WelcomePage
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
UpgradeRepairPage(PINPUT_RECORD Ir)
{
GENERIC_LIST_UI ListUi;
/*** HACK!! ***/
if (PartitionList == NULL)
{
PartitionList = CreatePartitionList();
if (PartitionList == NULL)
{
/* FIXME: show an error dialog */
MUIDisplayError(ERROR_DRIVE_INFORMATION, Ir, POPUP_WAIT_ENTER);
return QUIT_PAGE;
}
else if (IsListEmpty(&PartitionList->DiskListHead))
{
MUIDisplayError(ERROR_NO_HDD, Ir, POPUP_WAIT_ENTER);
return QUIT_PAGE;
}
/* Reset the formatter machine state */
TempPartition = NULL;
FormatState = Start;
}
/**************/
NtOsInstallsList = CreateNTOSInstallationsList(PartitionList);
if (!NtOsInstallsList)
DPRINT1("Failed to get a list of NTOS installations; continue installation...\n");
/*
* If there is no available installation (or just a single one??) that can
* be updated in the list, just continue with the regular installation.
*/
if (!NtOsInstallsList || GetNumberOfListEntries(NtOsInstallsList) == 0)
{
RepairUpdateFlag = FALSE;
// return INSTALL_INTRO_PAGE;
return DEVICE_SETTINGS_PAGE;
// return SCSI_CONTROLLER_PAGE;
}
MUIDisplayPage(UPGRADE_REPAIR_PAGE);
InitGenericListUi(&ListUi, NtOsInstallsList, GetNTOSInstallationName);
DrawGenericList(&ListUi,
2, 23,
xScreen - 3,
yScreen - 3);
// return HandleGenericList(&ListUi, DEVICE_SETTINGS_PAGE, Ir);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x00)
{
switch (Ir->Event.KeyEvent.wVirtualKeyCode)
{
case VK_DOWN: /* DOWN */
ScrollDownGenericList(&ListUi);
break;
case VK_UP: /* UP */
ScrollUpGenericList(&ListUi);
break;
case VK_NEXT: /* PAGE DOWN */
ScrollPageDownGenericList(&ListUi);
break;
case VK_PRIOR: /* PAGE UP */
ScrollPageUpGenericList(&ListUi);
break;
case VK_F3: /* F3 */
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
else
RedrawGenericList(&ListUi);
break;
}
#if 1
/* TODO: Temporarily kept until correct keyboard layout is in place.
* (Actual AsciiChar of ESCAPE should be 0x1B instead of 0.)
* Addendum to commit 8b94515b.
*/
case VK_ESCAPE: /* ESC */
{
RestoreGenericListUiState(&ListUi);
// return nextPage; // prevPage;
// return INSTALL_INTRO_PAGE;
return DEVICE_SETTINGS_PAGE;
// return SCSI_CONTROLLER_PAGE;
}
#endif
}
}
#if 0
/* TODO: Restore this once correct keyboard layout is in place. */
else if (Ir->Event.KeyEvent.wVirtualKeyCode == VK_ESCAPE) /* ESC */
{
RestoreGenericListUiState(&ListUi);
// return nextPage; // prevPage;
// return INSTALL_INTRO_PAGE;
return DEVICE_SETTINGS_PAGE;
// return SCSI_CONTROLLER_PAGE;
}
#endif
else
{
// switch (toupper(Ir->Event.KeyEvent.uChar.AsciiChar))
// if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
if (toupper(Ir->Event.KeyEvent.uChar.AsciiChar) == 'U') /* U */
{
/* Retrieve the current installation */
ASSERT(GetNumberOfListEntries(NtOsInstallsList) >= 1);
CurrentInstallation =
(PNTOS_INSTALLATION)GetListEntryData(GetCurrentListEntry(NtOsInstallsList));
DPRINT1("Selected installation for repair: \"%S\" ; DiskNumber = %d , PartitionNumber = %d\n",
CurrentInstallation->InstallationName, CurrentInstallation->DiskNumber, CurrentInstallation->PartitionNumber);
RepairUpdateFlag = TRUE;
// return nextPage;
/***/return INSTALL_INTRO_PAGE;/***/
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar > 0x60) &&
(Ir->Event.KeyEvent.uChar.AsciiChar < 0x7b)) /* a-z */
{
GenericListKeyPress(&ListUi, Ir->Event.KeyEvent.uChar.AsciiChar);
}
}
}
return UPGRADE_REPAIR_PAGE;
}
/*
* Displays the InstallIntroPage.
*
* Next pages:
* DeviceSettingsPage (At once if repair or update is selected)
* SelectPartitionPage (At once if unattended setup)
* DeviceSettingsPage (default)
* QuitPage
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
InstallIntroPage(PINPUT_RECORD Ir)
{
if (RepairUpdateFlag)
{
#if 1 /* Old code that looks good */
// return SELECT_PARTITION_PAGE;
return DEVICE_SETTINGS_PAGE;
#else /* Possible new code? */
return DEVICE_SETTINGS_PAGE;
// return SCSI_CONTROLLER_PAGE;
#endif
}
if (IsUnattendedSetup)
return SELECT_PARTITION_PAGE;
MUIDisplayPage(INSTALL_INTRO_PAGE);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
break;
}
else if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
{
return UPGRADE_REPAIR_PAGE;
}
}
return INSTALL_INTRO_PAGE;
}
#if 0
static PAGE_NUMBER
ScsiControllerPage(PINPUT_RECORD Ir)
{
// MUIDisplayPage(SCSI_CONTROLLER_PAGE);
CONSOLE_SetTextXY(6, 8, "Setup detected the following mass storage devices:");
/* FIXME: print loaded mass storage driver descriptions */
#if 0
CONSOLE_SetTextXY(8, 10, "TEST device");
#endif
CONSOLE_SetStatusText(" ENTER = Continue F3 = Quit");
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
break;
}
else if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
{
return DEVICE_SETTINGS_PAGE;
}
}
return SCSI_CONTROLLER_PAGE;
}
static PAGE_NUMBER
OemDriverPage(PINPUT_RECORD Ir)
{
// MUIDisplayPage(OEM_DRIVER_PAGE);
CONSOLE_SetTextXY(6, 8, "This is the OEM driver page!");
/* FIXME: Implement!! */
CONSOLE_SetStatusText(" ENTER = Continue F3 = Quit");
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
break;
}
else if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
{
return DEVICE_SETTINGS_PAGE;
}
}
return OEM_DRIVER_PAGE;
}
#endif
/*
* Displays the DeviceSettingsPage.
*
* Next pages:
* SelectPartitionPage (At once if repair or update is selected)
* ComputerSettingsPage
* DisplaySettingsPage
* KeyboardSettingsPage
* LayoutsettingsPage
* SelectPartitionPage
* QuitPage
*
* SIDEEFFECTS
* Init USetupData.ComputerList
* Init USetupData.DisplayList
* Init USetupData.KeyboardList
* Init USetupData.LayoutList
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
DeviceSettingsPage(PINPUT_RECORD Ir)
{
static ULONG Line = 16;
/* Initialize the computer settings list */
if (USetupData.ComputerList == NULL)
{
USetupData.ComputerList = CreateComputerTypeList(USetupData.SetupInf);
if (USetupData.ComputerList == NULL)
{
MUIDisplayError(ERROR_LOAD_COMPUTER, Ir, POPUP_WAIT_ENTER);
return QUIT_PAGE;
}
}
/* Initialize the display settings list */
if (USetupData.DisplayList == NULL)
{
USetupData.DisplayList = CreateDisplayDriverList(USetupData.SetupInf);
if (USetupData.DisplayList == NULL)
{
MUIDisplayError(ERROR_LOAD_DISPLAY, Ir, POPUP_WAIT_ENTER);
return QUIT_PAGE;
}
}
/* Initialize the keyboard settings list */
if (USetupData.KeyboardList == NULL)
{
USetupData.KeyboardList = CreateKeyboardDriverList(USetupData.SetupInf);
if (USetupData.KeyboardList == NULL)
{
MUIDisplayError(ERROR_LOAD_KEYBOARD, Ir, POPUP_WAIT_ENTER);
return QUIT_PAGE;
}
}
/* Initialize the keyboard layout list */
if (USetupData.LayoutList == NULL)
{
USetupData.LayoutList = CreateKeyboardLayoutList(USetupData.SetupInf, SelectedLanguageId, DefaultKBLayout);
if (USetupData.LayoutList == NULL)
{
/* FIXME: report error */
MUIDisplayError(ERROR_LOAD_KBLAYOUT, Ir, POPUP_WAIT_ENTER);
return QUIT_PAGE;
}
}
if (RepairUpdateFlag)
return SELECT_PARTITION_PAGE;
// if (IsUnattendedSetup)
// return SELECT_PARTITION_PAGE;
MUIDisplayPage(DEVICE_SETTINGS_PAGE);
DrawGenericListCurrentItem(USetupData.ComputerList, GetSettingDescription, 25, 11);
DrawGenericListCurrentItem(USetupData.DisplayList , GetSettingDescription, 25, 12);
DrawGenericListCurrentItem(USetupData.KeyboardList, GetSettingDescription, 25, 13);
DrawGenericListCurrentItem(USetupData.LayoutList , GetSettingDescription, 25, 14);
CONSOLE_InvertTextXY(24, Line, 48, 1);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_DOWN)) /* DOWN */
{
CONSOLE_NormalTextXY(24, Line, 48, 1);
if (Line == 14)
Line = 16;
else if (Line == 16)
Line = 11;
else
Line++;
CONSOLE_InvertTextXY(24, Line, 48, 1);
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_UP)) /* UP */
{
CONSOLE_NormalTextXY(24, Line, 48, 1);
if (Line == 11)
Line = 16;
else if (Line == 16)
Line = 14;
else
Line--;
CONSOLE_InvertTextXY(24, Line, 48, 1);
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
break;
}
else if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
{
if (Line == 11)
return COMPUTER_SETTINGS_PAGE;
else if (Line == 12)
return DISPLAY_SETTINGS_PAGE;
else if (Line == 13)
return KEYBOARD_SETTINGS_PAGE;
else if (Line == 14)
return LAYOUT_SETTINGS_PAGE;
else if (Line == 16)
return SELECT_PARTITION_PAGE;
}
}
return DEVICE_SETTINGS_PAGE;
}
/*
* Handles generic selection lists.
*
* PARAMS
* GenericList: The list to handle.
* nextPage: The page it needs to jump to after this page.
* Ir: The PINPUT_RECORD
*/
static PAGE_NUMBER
HandleGenericList(PGENERIC_LIST_UI ListUi,
PAGE_NUMBER nextPage,
PINPUT_RECORD Ir)
{
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_DOWN)) /* DOWN */
{
ScrollDownGenericList(ListUi);
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_UP)) /* UP */
{
ScrollUpGenericList(ListUi);
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_NEXT)) /* PAGE DOWN */
{
ScrollPageDownGenericList(ListUi);
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_PRIOR)) /* PAGE UP */
{
ScrollPageUpGenericList(ListUi);
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
else
RedrawGenericList(ListUi);
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == VK_ESCAPE) /* ESC */
{
RestoreGenericListUiState(ListUi);
return nextPage; // Use some "prevPage;" instead?
}
else if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
{
return nextPage;
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar > 0x60) && (Ir->Event.KeyEvent.uChar.AsciiChar < 0x7b))
{
/* a-z */
GenericListKeyPress(ListUi, Ir->Event.KeyEvent.uChar.AsciiChar);
}
}
}
/*
* Displays the ComputerSettingsPage.
*
* Next pages:
* DeviceSettingsPage
* QuitPage
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
ComputerSettingsPage(PINPUT_RECORD Ir)
{
GENERIC_LIST_UI ListUi;
MUIDisplayPage(COMPUTER_SETTINGS_PAGE);
InitGenericListUi(&ListUi, USetupData.ComputerList, GetSettingDescription);
DrawGenericList(&ListUi,
2, 18,
xScreen - 3,
yScreen - 3);
return HandleGenericList(&ListUi, DEVICE_SETTINGS_PAGE, Ir);
}
/*
* Displays the DisplaySettingsPage.
*
* Next pages:
* DeviceSettingsPage
* QuitPage
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
DisplaySettingsPage(PINPUT_RECORD Ir)
{
GENERIC_LIST_UI ListUi;
MUIDisplayPage(DISPLAY_SETTINGS_PAGE);
InitGenericListUi(&ListUi, USetupData.DisplayList, GetSettingDescription);
DrawGenericList(&ListUi,
2, 18,
xScreen - 3,
yScreen - 3);
return HandleGenericList(&ListUi, DEVICE_SETTINGS_PAGE, Ir);
}
/*
* Displays the KeyboardSettingsPage.
*
* Next pages:
* DeviceSettingsPage
* QuitPage
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
KeyboardSettingsPage(PINPUT_RECORD Ir)
{
GENERIC_LIST_UI ListUi;
MUIDisplayPage(KEYBOARD_SETTINGS_PAGE);
InitGenericListUi(&ListUi, USetupData.KeyboardList, GetSettingDescription);
DrawGenericList(&ListUi,
2, 18,
xScreen - 3,
yScreen - 3);
return HandleGenericList(&ListUi, DEVICE_SETTINGS_PAGE, Ir);
}
/*
* Displays the LayoutSettingsPage.
*
* Next pages:
* DeviceSettingsPage
* QuitPage
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
LayoutSettingsPage(PINPUT_RECORD Ir)
{
GENERIC_LIST_UI ListUi;
MUIDisplayPage(LAYOUT_SETTINGS_PAGE);
InitGenericListUi(&ListUi, USetupData.LayoutList, GetSettingDescription);
DrawGenericList(&ListUi,
2, 18,
xScreen - 3,
yScreen - 3);
return HandleGenericList(&ListUi, DEVICE_SETTINGS_PAGE, Ir);
}
static BOOL
IsDiskSizeValid(PPARTENTRY PartEntry)
{
ULONGLONG size;
size = PartEntry->SectorCount.QuadPart * PartEntry->DiskEntry->BytesPerSector;
size = (size + (512 * KB)) / MB; /* in MBytes */
if (size < USetupData.RequiredPartitionDiskSpace)
{
/* Partition is too small so ask for another one */
DPRINT1("Partition is too small (size: %I64u MB), required disk space is %lu MB\n", size, USetupData.RequiredPartitionDiskSpace);
return FALSE;
}
else
{
return TRUE;
}
}
/*
* Displays the SelectPartitionPage.
*
* Next pages:
* SelectFileSystemPage (At once if unattended)
* SelectFileSystemPage (Default if free space is selected)
* CreatePrimaryPartitionPage
* CreateExtendedPartitionPage
* CreateLogicalPartitionPage
* ConfirmDeleteSystemPartitionPage (if the selected partition is the system partition, aka with the boot flag set)
* DeletePartitionPage
* QuitPage
*
* SIDEEFFECTS
* Set InstallShortcut (only if not unattended + free space is selected)
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
SelectPartitionPage(PINPUT_RECORD Ir)
{
PARTLIST_UI ListUi;
ULONG Error;
if (PartitionList == NULL)
{
PartitionList = CreatePartitionList();
if (PartitionList == NULL)
{
MUIDisplayError(ERROR_DRIVE_INFORMATION, Ir, POPUP_WAIT_ENTER);
return QUIT_PAGE;
}
else if (IsListEmpty(&PartitionList->DiskListHead))
{
MUIDisplayError(ERROR_NO_HDD, Ir, POPUP_WAIT_ENTER);
return QUIT_PAGE;
}
/* Reset the formatter machine state */
TempPartition = NULL;
FormatState = Start;
}
if (RepairUpdateFlag)
{
ASSERT(CurrentInstallation);
/* Determine the selected installation disk & partition */
InstallPartition = SelectPartition(PartitionList,
CurrentInstallation->DiskNumber,
CurrentInstallation->PartitionNumber);
if (!InstallPartition)
{
DPRINT1("RepairUpdateFlag == TRUE, SelectPartition() returned FALSE, assert!\n");
ASSERT(FALSE);
}
ASSERT(!IsContainerPartition(InstallPartition->PartitionType));
return SELECT_FILE_SYSTEM_PAGE;
}
MUIDisplayPage(SELECT_PARTITION_PAGE);
InitPartitionListUi(&ListUi, PartitionList,
CurrentPartition,
2, 23,
xScreen - 3,
yScreen - 3);
DrawPartitionList(&ListUi);
if (IsUnattendedSetup)
{
/* Determine the selected installation disk & partition */
InstallPartition = SelectPartition(PartitionList,
USetupData.DestinationDiskNumber,
USetupData.DestinationPartitionNumber);
if (!InstallPartition)
{
CurrentPartition = ListUi.CurrentPartition;
if (USetupData.AutoPartition)
{
ASSERT(CurrentPartition != NULL);
ASSERT(!IsContainerPartition(CurrentPartition->PartitionType));
if (CurrentPartition->LogicalPartition)
{
CreateLogicalPartition(PartitionList,
CurrentPartition,
CurrentPartition->SectorCount.QuadPart,
TRUE);
}
else
{
CreatePrimaryPartition(PartitionList,
CurrentPartition,
CurrentPartition->SectorCount.QuadPart,
TRUE);
}
// FIXME?? Aren't we going to enter an infinite loop, if this test fails??
if (!IsDiskSizeValid(CurrentPartition))
{
MUIDisplayError(ERROR_INSUFFICIENT_PARTITION_SIZE, Ir, POPUP_WAIT_ANY_KEY,
USetupData.RequiredPartitionDiskSpace);
return SELECT_PARTITION_PAGE; /* let the user select another partition */
}
InstallPartition = CurrentPartition;
return SELECT_FILE_SYSTEM_PAGE;
}
}
else
{
ASSERT(!IsContainerPartition(InstallPartition->PartitionType));
DrawPartitionList(&ListUi); // FIXME: Doesn't make much sense...
// FIXME?? Aren't we going to enter an infinite loop, if this test fails??
if (!IsDiskSizeValid(InstallPartition))
{
MUIDisplayError(ERROR_INSUFFICIENT_PARTITION_SIZE, Ir, POPUP_WAIT_ANY_KEY,
USetupData.RequiredPartitionDiskSpace);
return SELECT_PARTITION_PAGE; /* let the user select another partition */
}
return SELECT_FILE_SYSTEM_PAGE;
}
}
while (TRUE)
{
CurrentPartition = ListUi.CurrentPartition;
/* Update status text */
if (CurrentPartition == NULL)
{
CONSOLE_SetStatusText(MUIGetString(STRING_INSTALLCREATEPARTITION));
}
else if (CurrentPartition->LogicalPartition)
{
if (CurrentPartition->IsPartitioned)
{
CONSOLE_SetStatusText(MUIGetString(STRING_DELETEPARTITION));
}
else
{
CONSOLE_SetStatusText(MUIGetString(STRING_INSTALLCREATELOGICAL));
}
}
else
{
if (CurrentPartition->IsPartitioned)
{
if (IsContainerPartition(CurrentPartition->PartitionType))
{
CONSOLE_SetStatusText(MUIGetString(STRING_DELETEPARTITION));
}
else
{
CONSOLE_SetStatusText(MUIGetString(STRING_INSTALLDELETEPARTITION));
}
}
else
{
CONSOLE_SetStatusText(MUIGetString(STRING_INSTALLCREATEPARTITION));
}
}
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (ConfirmQuit(Ir))
{
DestroyPartitionList(PartitionList);
PartitionList = NULL;
return QUIT_PAGE;
}
break;
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_DOWN)) /* DOWN */
{
ScrollDownPartitionList(&ListUi);
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_UP)) /* UP */
{
ScrollUpPartitionList(&ListUi);
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == VK_RETURN) /* ENTER */
{
ASSERT(CurrentPartition != NULL);
if (IsContainerPartition(CurrentPartition->PartitionType))
continue; // return SELECT_PARTITION_PAGE;
/*
* Check whether the user wants to install ReactOS on a disk that
* is not recognized by the computer's firmware and if so, display
* a warning since such disks may not be bootable.
*/
if (CurrentPartition->DiskEntry->MediaType == FixedMedia &&
!CurrentPartition->DiskEntry->BiosFound)
{
PopupError("The disk you have selected for installing ReactOS\n"
"is not visible by the firmware of your computer,\n"
"and so may not be bootable.\n"
"Press ENTER to continue nonetheless.",
MUIGetString(STRING_CONTINUE),
Ir, POPUP_WAIT_ENTER);
// return SELECT_PARTITION_PAGE;
}
if (CurrentPartition->IsPartitioned == FALSE)
{
if (CurrentPartition->LogicalPartition)
{
Error = LogicalPartitionCreationChecks(CurrentPartition);
if (Error != NOT_AN_ERROR)
{
MUIDisplayError(Error, Ir, POPUP_WAIT_ANY_KEY);
return SELECT_PARTITION_PAGE;
}
CreateLogicalPartition(PartitionList,
CurrentPartition,
0ULL,
TRUE);
}
else
{
Error = PrimaryPartitionCreationChecks(CurrentPartition);
if (Error != NOT_AN_ERROR)
{
MUIDisplayError(Error, Ir, POPUP_WAIT_ANY_KEY);
return SELECT_PARTITION_PAGE;
}
CreatePrimaryPartition(PartitionList,
CurrentPartition,
0ULL,
TRUE);
}
}
if (!IsDiskSizeValid(CurrentPartition))
{
MUIDisplayError(ERROR_INSUFFICIENT_PARTITION_SIZE, Ir, POPUP_WAIT_ANY_KEY,
USetupData.RequiredPartitionDiskSpace);
return SELECT_PARTITION_PAGE; /* let the user select another partition */
}
InstallPartition = CurrentPartition;
return SELECT_FILE_SYSTEM_PAGE;
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == 'P') /* P */
{
ASSERT(CurrentPartition != NULL);
if (CurrentPartition->LogicalPartition == FALSE)
{
Error = PrimaryPartitionCreationChecks(CurrentPartition);
if (Error != NOT_AN_ERROR)
{
MUIDisplayError(Error, Ir, POPUP_WAIT_ANY_KEY);
return SELECT_PARTITION_PAGE;
}
return CREATE_PRIMARY_PARTITION_PAGE;
}
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == 'E') /* E */
{
ASSERT(CurrentPartition != NULL);
if (CurrentPartition->LogicalPartition == FALSE)
{
Error = ExtendedPartitionCreationChecks(CurrentPartition);
if (Error != NOT_AN_ERROR)
{
MUIDisplayError(Error, Ir, POPUP_WAIT_ANY_KEY);
return SELECT_PARTITION_PAGE;
}
return CREATE_EXTENDED_PARTITION_PAGE;
}
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == 'L') /* L */
{
ASSERT(CurrentPartition != NULL);
if (CurrentPartition->LogicalPartition)
{
Error = LogicalPartitionCreationChecks(CurrentPartition);
if (Error != NOT_AN_ERROR)
{
MUIDisplayError(Error, Ir, POPUP_WAIT_ANY_KEY);
return SELECT_PARTITION_PAGE;
}
return CREATE_LOGICAL_PARTITION_PAGE;
}
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == 'D') /* D */
{
UNICODE_STRING CurrentPartitionU;
WCHAR PathBuffer[MAX_PATH];
ASSERT(CurrentPartition != NULL);
if (CurrentPartition->IsPartitioned == FALSE)
{
MUIDisplayError(ERROR_DELETE_SPACE, Ir, POPUP_WAIT_ANY_KEY);
return SELECT_PARTITION_PAGE;
}
// TODO: Do something similar before trying to format the partition?
if (!CurrentPartition->New &&
!IsContainerPartition(CurrentPartition->PartitionType) &&
CurrentPartition->FormatState != Unformatted)
{
ASSERT(CurrentPartition->PartitionNumber != 0);
RtlStringCchPrintfW(PathBuffer, ARRAYSIZE(PathBuffer),
L"\\Device\\Harddisk%lu\\Partition%lu\\",
CurrentPartition->DiskEntry->DiskNumber,
CurrentPartition->PartitionNumber);
RtlInitUnicodeString(&CurrentPartitionU, PathBuffer);
/*
* Check whether the user attempts to delete the partition on which
* the installation source is present. If so, fail with an error.
*/
// &USetupData.SourceRootPath
if (RtlPrefixUnicodeString(&CurrentPartitionU, &USetupData.SourcePath, TRUE))
{
MUIDisplayError(ERROR_SOURCE_PATH, Ir, POPUP_WAIT_ENTER);
return SELECT_PARTITION_PAGE;
}
}
if (CurrentPartition == PartitionList->SystemPartition ||
IsPartitionActive(CurrentPartition))
{
return CONFIRM_DELETE_SYSTEM_PARTITION_PAGE;
}
return DELETE_PARTITION_PAGE;
}
}
return SELECT_PARTITION_PAGE;
}
#define PARTITION_SIZE_INPUT_FIELD_LENGTH 9
/* Restriction for MaxSize */
#define PARTITION_MAXSIZE (pow(10, (PARTITION_SIZE_INPUT_FIELD_LENGTH - 1)) - 1)
static VOID
ShowPartitionSizeInputBox(SHORT Left,
SHORT Top,
SHORT Right,
SHORT Bottom,
ULONG MaxSize,
PWSTR InputBuffer,
PBOOLEAN Quit,
PBOOLEAN Cancel)
{
INPUT_RECORD Ir;
COORD coPos;
DWORD Written;
CHAR Buffer[128];
INT Length, Pos;
WCHAR ch;
SHORT iLeft;
SHORT iTop;
if (Quit != NULL)
*Quit = FALSE;
if (Cancel != NULL)
*Cancel = FALSE;
DrawBox(Left, Top, Right - Left + 1, Bottom - Top + 1);
/* Print message */
coPos.X = Left + 2;
coPos.Y = Top + 2;
strcpy(Buffer, MUIGetString(STRING_PARTITIONSIZE));
iLeft = coPos.X + (USHORT)strlen(Buffer) + 1;
iTop = coPos.Y;
WriteConsoleOutputCharacterA(StdOutput,
Buffer,
strlen(Buffer),
coPos,
&Written);
sprintf(Buffer, MUIGetString(STRING_MAXSIZE), MaxSize);
coPos.X = iLeft + PARTITION_SIZE_INPUT_FIELD_LENGTH + 1;
coPos.Y = iTop;
WriteConsoleOutputCharacterA(StdOutput,
Buffer,
strlen(Buffer),
coPos,
&Written);
swprintf(InputBuffer, L"%lu", MaxSize);
Length = wcslen(InputBuffer);
Pos = Length;
CONSOLE_SetInputTextXY(iLeft,
iTop,
PARTITION_SIZE_INPUT_FIELD_LENGTH,
InputBuffer);
CONSOLE_SetCursorXY(iLeft + Length, iTop);
CONSOLE_SetCursorType(TRUE, TRUE);
while (TRUE)
{
CONSOLE_ConInKey(&Ir);
if ((Ir.Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir.Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (Quit != NULL)
*Quit = TRUE;
InputBuffer[0] = UNICODE_NULL;
CONSOLE_SetCursorType(TRUE, FALSE);
break;
}
else if (Ir.Event.KeyEvent.wVirtualKeyCode == VK_RETURN) /* ENTER */
{
CONSOLE_SetCursorType(TRUE, FALSE);
break;
}
else if (Ir.Event.KeyEvent.wVirtualKeyCode == VK_ESCAPE) /* ESC */
{
if (Cancel != NULL)
*Cancel = TRUE;
InputBuffer[0] = UNICODE_NULL;
CONSOLE_SetCursorType(TRUE, FALSE);
break;
}
else if ((Ir.Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir.Event.KeyEvent.wVirtualKeyCode == VK_HOME)) /* HOME */
{
Pos = 0;
CONSOLE_SetCursorXY(iLeft + Pos, iTop);
}
else if ((Ir.Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir.Event.KeyEvent.wVirtualKeyCode == VK_END)) /* END */
{
Pos = Length;
CONSOLE_SetCursorXY(iLeft + Pos, iTop);
}
else if ((Ir.Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir.Event.KeyEvent.wVirtualKeyCode == VK_LEFT)) /* LEFT */
{
if (Pos > 0)
{
Pos--;
CONSOLE_SetCursorXY(iLeft + Pos, iTop);
}
}
else if ((Ir.Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir.Event.KeyEvent.wVirtualKeyCode == VK_RIGHT)) /* RIGHT */
{
if (Pos < Length)
{
Pos++;
CONSOLE_SetCursorXY(iLeft + Pos, iTop);
}
}
else if ((Ir.Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir.Event.KeyEvent.wVirtualKeyCode == VK_DELETE)) /* DEL */
{
if (Pos < Length)
{
memmove(&InputBuffer[Pos],
&InputBuffer[Pos + 1],
(Length - Pos - 1) * sizeof(WCHAR));
InputBuffer[Length - 1] = UNICODE_NULL;
Length--;
CONSOLE_SetInputTextXY(iLeft,
iTop,
PARTITION_SIZE_INPUT_FIELD_LENGTH,
InputBuffer);
CONSOLE_SetCursorXY(iLeft + Pos, iTop);
}
}
else if (Ir.Event.KeyEvent.wVirtualKeyCode == VK_BACK) /* BACKSPACE */
{
if (Pos > 0)
{
if (Pos < Length)
memmove(&InputBuffer[Pos - 1],
&InputBuffer[Pos],
(Length - Pos) * sizeof(WCHAR));
InputBuffer[Length - 1] = UNICODE_NULL;
Pos--;
Length--;
CONSOLE_SetInputTextXY(iLeft,
iTop,
PARTITION_SIZE_INPUT_FIELD_LENGTH,
InputBuffer);
CONSOLE_SetCursorXY(iLeft + Pos, iTop);
}
}
else if (Ir.Event.KeyEvent.uChar.AsciiChar != 0x00)
{
if (Length < PARTITION_SIZE_INPUT_FIELD_LENGTH - 1)
{
ch = (WCHAR)Ir.Event.KeyEvent.uChar.AsciiChar;
if ((ch >= L'0') && (ch <= L'9'))
{
if (Pos < Length)
memmove(&InputBuffer[Pos + 1],
&InputBuffer[Pos],
(Length - Pos) * sizeof(WCHAR));
InputBuffer[Length + 1] = UNICODE_NULL;
InputBuffer[Pos] = ch;
Pos++;
Length++;
CONSOLE_SetInputTextXY(iLeft,
iTop,
PARTITION_SIZE_INPUT_FIELD_LENGTH,
InputBuffer);
CONSOLE_SetCursorXY(iLeft + Pos, iTop);
}
}
}
}
}
/*
* Displays the CreatePrimaryPartitionPage.
*
* Next pages:
* SelectPartitionPage
* SelectFileSystemPage (default)
* QuitPage
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
CreatePrimaryPartitionPage(PINPUT_RECORD Ir)
{
PPARTENTRY PartEntry;
PDISKENTRY DiskEntry;
BOOLEAN Quit;
BOOLEAN Cancel;
ULONG MaxSize;
ULONGLONG PartSize;
ULONGLONG SectorCount;
WCHAR InputBuffer[50];
CHAR LineBuffer[100];
if (PartitionList == NULL || CurrentPartition == NULL)
{
/* FIXME: show an error dialog */
return QUIT_PAGE;
}
PartEntry = CurrentPartition;
DiskEntry = CurrentPartition->DiskEntry;
CONSOLE_SetStatusText(MUIGetString(STRING_PLEASEWAIT));
CONSOLE_SetTextXY(6, 8, MUIGetString(STRING_CHOOSENEWPARTITION));
DiskDescription(DiskEntry, LineBuffer, ARRAYSIZE(LineBuffer));
CONSOLE_PrintTextXY(6, 10, MUIGetString(STRING_HDINFOPARTCREATE_1),
LineBuffer);
CONSOLE_SetTextXY(6, 12, MUIGetString(STRING_HDDSIZE));
#if 0
CONSOLE_PrintTextXY(8, 10, "Maximum size of the new partition is %I64u MB",
CurrentPartition->SectorCount * DiskEntry->BytesPerSector / MB);
#endif
CONSOLE_SetStatusText(MUIGetString(STRING_CREATEPARTITION));
PartEntry = CurrentPartition;
while (TRUE)
{
MaxSize = (PartEntry->SectorCount.QuadPart * DiskEntry->BytesPerSector) / MB; /* in MBytes (rounded) */
if (MaxSize > PARTITION_MAXSIZE)
MaxSize = PARTITION_MAXSIZE;
ShowPartitionSizeInputBox(12, 14, xScreen - 12, 17, /* left, top, right, bottom */
MaxSize, InputBuffer, &Quit, &Cancel);
if (Quit)
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
break;
}
else if (Cancel)
{
return SELECT_PARTITION_PAGE;
}
else
{
PartSize = _wcstoui64(InputBuffer, NULL, 10);
if (PartSize < 1)
{
/* Too small */
continue;
}
if (PartSize > MaxSize)
{
/* Too large */
continue;
}
/* Convert to bytes */
if (PartSize == MaxSize)
{
/* Use all of the unpartitioned disk space */
SectorCount = PartEntry->SectorCount.QuadPart;
}
else
{
/* Calculate the sector count from the size in MB */
SectorCount = PartSize * MB / DiskEntry->BytesPerSector;
/* But never get larger than the unpartitioned disk space */
if (SectorCount > PartEntry->SectorCount.QuadPart)
SectorCount = PartEntry->SectorCount.QuadPart;
}
DPRINT ("Partition size: %I64u bytes\n", PartSize);
CreatePrimaryPartition(PartitionList,
CurrentPartition,
SectorCount,
FALSE);
return SELECT_PARTITION_PAGE;
}
}
return CREATE_PRIMARY_PARTITION_PAGE;
}
/*
* Displays the CreateExtendedPartitionPage.
*
* Next pages:
* SelectPartitionPage (default)
* QuitPage
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
CreateExtendedPartitionPage(PINPUT_RECORD Ir)
{
PPARTENTRY PartEntry;
PDISKENTRY DiskEntry;
BOOLEAN Quit;
BOOLEAN Cancel;
ULONG MaxSize;
ULONGLONG PartSize;
ULONGLONG SectorCount;
WCHAR InputBuffer[50];
CHAR LineBuffer[100];
if (PartitionList == NULL || CurrentPartition == NULL)
{
/* FIXME: show an error dialog */
return QUIT_PAGE;
}
PartEntry = CurrentPartition;
DiskEntry = CurrentPartition->DiskEntry;
CONSOLE_SetStatusText(MUIGetString(STRING_PLEASEWAIT));
CONSOLE_SetTextXY(6, 8, MUIGetString(STRING_CHOOSE_NEW_EXTENDED_PARTITION));
DiskDescription(DiskEntry, LineBuffer, ARRAYSIZE(LineBuffer));
CONSOLE_PrintTextXY(6, 10, MUIGetString(STRING_HDINFOPARTCREATE_1),
LineBuffer);
CONSOLE_SetTextXY(6, 12, MUIGetString(STRING_HDDSIZE));
#if 0
CONSOLE_PrintTextXY(8, 10, "Maximum size of the new partition is %I64u MB",
CurrentPartition->SectorCount * DiskEntry->BytesPerSector / MB);
#endif
CONSOLE_SetStatusText(MUIGetString(STRING_CREATEPARTITION));
PartEntry = CurrentPartition;
while (TRUE)
{
MaxSize = (PartEntry->SectorCount.QuadPart * DiskEntry->BytesPerSector) / MB; /* in MBytes (rounded) */
if (MaxSize > PARTITION_MAXSIZE)
MaxSize = PARTITION_MAXSIZE;
ShowPartitionSizeInputBox(12, 14, xScreen - 12, 17, /* left, top, right, bottom */
MaxSize, InputBuffer, &Quit, &Cancel);
if (Quit)
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
break;
}
else if (Cancel)
{
return SELECT_PARTITION_PAGE;
}
else
{
PartSize = _wcstoui64(InputBuffer, NULL, 10);
if (PartSize < 1)
{
/* Too small */
continue;
}
if (PartSize > MaxSize)
{
/* Too large */
continue;
}
/* Convert to bytes */
if (PartSize == MaxSize)
{
/* Use all of the unpartitioned disk space */
SectorCount = PartEntry->SectorCount.QuadPart;
}
else
{
/* Calculate the sector count from the size in MB */
SectorCount = PartSize * MB / DiskEntry->BytesPerSector;
/* But never get larger than the unpartitioned disk space */
if (SectorCount > PartEntry->SectorCount.QuadPart)
SectorCount = PartEntry->SectorCount.QuadPart;
}
DPRINT ("Partition size: %I64u bytes\n", PartSize);
CreateExtendedPartition(PartitionList,
CurrentPartition,
SectorCount);
return SELECT_PARTITION_PAGE;
}
}
return CREATE_EXTENDED_PARTITION_PAGE;
}
/*
* Displays the CreateLogicalPartitionPage.
*
* Next pages:
* SelectFileSystemPage (default)
* QuitPage
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
CreateLogicalPartitionPage(PINPUT_RECORD Ir)
{
PPARTENTRY PartEntry;
PDISKENTRY DiskEntry;
BOOLEAN Quit;
BOOLEAN Cancel;
ULONG MaxSize;
ULONGLONG PartSize;
ULONGLONG SectorCount;
WCHAR InputBuffer[50];
CHAR LineBuffer[100];
if (PartitionList == NULL || CurrentPartition == NULL)
{
/* FIXME: show an error dialog */
return QUIT_PAGE;
}
PartEntry = CurrentPartition;
DiskEntry = CurrentPartition->DiskEntry;
CONSOLE_SetStatusText(MUIGetString(STRING_PLEASEWAIT));
CONSOLE_SetTextXY(6, 8, MUIGetString(STRING_CHOOSE_NEW_LOGICAL_PARTITION));
DiskDescription(DiskEntry, LineBuffer, ARRAYSIZE(LineBuffer));
CONSOLE_PrintTextXY(6, 10, MUIGetString(STRING_HDINFOPARTCREATE_1),
LineBuffer);
CONSOLE_SetTextXY(6, 12, MUIGetString(STRING_HDDSIZE));
#if 0
CONSOLE_PrintTextXY(8, 10, "Maximum size of the new partition is %I64u MB",
CurrentPartition->SectorCount * DiskEntry->BytesPerSector / MB);
#endif
CONSOLE_SetStatusText(MUIGetString(STRING_CREATEPARTITION));
PartEntry = CurrentPartition;
while (TRUE)
{
MaxSize = (PartEntry->SectorCount.QuadPart * DiskEntry->BytesPerSector) / MB; /* in MBytes (rounded) */
if (MaxSize > PARTITION_MAXSIZE)
MaxSize = PARTITION_MAXSIZE;
ShowPartitionSizeInputBox(12, 14, xScreen - 12, 17, /* left, top, right, bottom */
MaxSize, InputBuffer, &Quit, &Cancel);
if (Quit)
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
break;
}
else if (Cancel)
{
return SELECT_PARTITION_PAGE;
}
else
{
PartSize = _wcstoui64(InputBuffer, NULL, 10);
if (PartSize < 1)
{
/* Too small */
continue;
}
if (PartSize > MaxSize)
{
/* Too large */
continue;
}
/* Convert to bytes */
if (PartSize == MaxSize)
{
/* Use all of the unpartitioned disk space */
SectorCount = PartEntry->SectorCount.QuadPart;
}
else
{
/* Calculate the sector count from the size in MB */
SectorCount = PartSize * MB / DiskEntry->BytesPerSector;
/* But never get larger than the unpartitioned disk space */
if (SectorCount > PartEntry->SectorCount.QuadPart)
SectorCount = PartEntry->SectorCount.QuadPart;
}
DPRINT("Partition size: %I64u bytes\n", PartSize);
CreateLogicalPartition(PartitionList,
CurrentPartition,
SectorCount,
FALSE);
return SELECT_PARTITION_PAGE;
}
}
return CREATE_LOGICAL_PARTITION_PAGE;
}
/*
* Displays the ConfirmDeleteSystemPartitionPage.
*
* Next pages:
* DeletePartitionPage (default)
* SelectPartitionPage
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
ConfirmDeleteSystemPartitionPage(PINPUT_RECORD Ir)
{
MUIDisplayPage(CONFIRM_DELETE_SYSTEM_PARTITION_PAGE);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
break;
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == VK_RETURN) /* ENTER */
{
return DELETE_PARTITION_PAGE;
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == VK_ESCAPE) /* ESC */
{
return SELECT_PARTITION_PAGE;
}
}
return CONFIRM_DELETE_SYSTEM_PARTITION_PAGE;
}
/*
* Displays the DeletePartitionPage.
*
* Next pages:
* SelectPartitionPage (default)
* QuitPage
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
DeletePartitionPage(PINPUT_RECORD Ir)
{
PPARTENTRY PartEntry;
PDISKENTRY DiskEntry;
CHAR LineBuffer[100];
if (PartitionList == NULL || CurrentPartition == NULL)
{
/* FIXME: show an error dialog */
return QUIT_PAGE;
}
PartEntry = CurrentPartition;
DiskEntry = CurrentPartition->DiskEntry;
MUIDisplayPage(DELETE_PARTITION_PAGE);
PartitionDescription(PartEntry, LineBuffer, ARRAYSIZE(LineBuffer));
CONSOLE_PrintTextXY(6, 10, " %s", LineBuffer);
DiskDescription(DiskEntry, LineBuffer, ARRAYSIZE(LineBuffer));
CONSOLE_PrintTextXY(6, 12, MUIGetString(STRING_HDINFOPARTDELETE_1),
LineBuffer);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
break;
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == VK_ESCAPE) /* ESC */
{
return SELECT_PARTITION_PAGE;
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == 'L') /* L */
{
DeletePartition(PartitionList,
CurrentPartition,
&CurrentPartition);
return SELECT_PARTITION_PAGE;
}
}
return DELETE_PARTITION_PAGE;
}
static VOID
ResetFileSystemList(VOID)
{
if (!FileSystemList)
return;
DestroyFileSystemList(FileSystemList);
FileSystemList = NULL;
}
/*
* Displays the SelectFileSystemPage.
*
* Next pages:
* CheckFileSystemPage (At once if RepairUpdate is selected)
* CheckFileSystemPage (At once if Unattended and not USetupData.FormatPartition)
* FormatPartitionPage (At once if Unattended and USetupData.FormatPartition)
* SelectPartitionPage (If the user aborts)
* FormatPartitionPage (Default)
* QuitPage
*
* SIDEEFFECTS
* Calls UpdatePartitionType()
* Calls FindSupportedSystemPartition()
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
SelectFileSystemPage(PINPUT_RECORD Ir)
{
PPARTENTRY PartEntry;
PDISKENTRY DiskEntry;
FORMATMACHINESTATE PreviousFormatState;
PCWSTR DefaultFs;
CHAR LineBuffer[100];
DPRINT("SelectFileSystemPage()\n");
if (PartitionList == NULL || InstallPartition == NULL)
{
/* FIXME: show an error dialog */
return QUIT_PAGE;
}
/* Find or set the active system partition when starting formatting */
if (FormatState == Start)
{
/*
* If we install on a fixed disk, try to find a supported system
* partition on the system. Otherwise if we install on a removable disk
* use the install partition as the system partition.
*/
if (InstallPartition->DiskEntry->MediaType == FixedMedia)
{
SystemPartition = FindSupportedSystemPartition(PartitionList,
FALSE,
InstallPartition->DiskEntry,
InstallPartition);
/* Use the original system partition as the old active partition hint */
PartEntry = PartitionList->SystemPartition;
if ( SystemPartition && PartitionList->SystemPartition &&
(SystemPartition != PartitionList->SystemPartition) )
{
DPRINT1("We are using a different system partition!!!!\n");
MUIDisplayPage(CHANGE_SYSTEM_PARTITION);
{
PPARTENTRY PartEntry; // Shadow variable
PartEntry = PartitionList->SystemPartition;
DiskEntry = PartEntry->DiskEntry;
PartitionDescription(PartEntry, LineBuffer, ARRAYSIZE(LineBuffer));
CONSOLE_SetTextXY(8, 10, LineBuffer);
DiskDescription(DiskEntry, LineBuffer, ARRAYSIZE(LineBuffer));
CONSOLE_PrintTextXY(8, 14, MUIGetString(STRING_HDINFOPARTCREATE_1),
LineBuffer);
PartEntry = SystemPartition;
DiskEntry = PartEntry->DiskEntry;
PartitionDescription(PartEntry, LineBuffer, ARRAYSIZE(LineBuffer));
CONSOLE_SetTextXY(8, 23, LineBuffer);
}
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if (Ir->Event.KeyEvent.wVirtualKeyCode == VK_RETURN) /* ENTER */
{
break;
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == VK_ESCAPE) /* ESC */
{
return SELECT_PARTITION_PAGE;
}
}
CONSOLE_ClearScreen();
CONSOLE_Flush();
}
}
else // if (InstallPartition->DiskEntry->MediaType == RemovableMedia)
{
SystemPartition = InstallPartition;
/* Don't specify any old active partition hint */
PartEntry = NULL;
}
if (!SystemPartition)
{
/* FIXME: improve the error dialog */
//
// Error dialog should say that we cannot find a suitable
// system partition and create one on the system. At this point,
// it may be nice to ask the user whether he wants to continue,
// or use an external drive as the system drive/partition
// (e.g. floppy, USB drive, etc...)
//
PopupError("The ReactOS Setup could not find a supported system partition\n"
"on your system or could not create a new one. Without such partition\n"
"the Setup program cannot install ReactOS.\n"
"Press ENTER to return to the partition selection list.",
MUIGetString(STRING_CONTINUE),
Ir, POPUP_WAIT_ENTER);
return SELECT_PARTITION_PAGE;
}
/*
* If the system partition can be created in some
* non-partitioned space, create it now.
*/
if (!SystemPartition->IsPartitioned)
{
CreatePrimaryPartition(PartitionList,
SystemPartition,
0LL, // SystemPartition->SectorCount.QuadPart,
TRUE);
ASSERT(SystemPartition->IsPartitioned);
}
/* Set it as such */
if (!SetActivePartition(PartitionList, SystemPartition, PartEntry))
{
DPRINT1("SetActivePartition(0x%p) failed?!\n", SystemPartition);
ASSERT(FALSE);
}
/* Commit all partition changes to all the disks */
if (!WritePartitionsToDisk(PartitionList))
{
DPRINT("WritePartitionsToDisk() failed\n");
MUIDisplayError(ERROR_WRITE_PTABLE, Ir, POPUP_WAIT_ENTER);
return QUIT_PAGE;
}
/*
* In all cases, whether or not we are going to perform a formatting,
* we must perform a filesystem check of both the system and the
* installation partitions.
*/
InstallPartition->NeedsCheck = TRUE;
if (SystemPartition != InstallPartition)
SystemPartition->NeedsCheck = TRUE;
/*
* In case we just repair an existing installation, or make
* an unattended setup without formatting, just go to the
* filesystem check step.
*/
if (RepairUpdateFlag)
return CHECK_FILE_SYSTEM_PAGE;
if (IsUnattendedSetup && !USetupData.FormatPartition)
return CHECK_FILE_SYSTEM_PAGE;
}
// ASSERT(SystemPartition->IsPartitioned);
/* Reset the filesystem list for each partition that is to be formatted */
ResetFileSystemList();
PreviousFormatState = FormatState;
switch (FormatState)
{
case Start:
{
/*
* We start by formatting the system partition in case it is new
* (it didn't exist before) and is not the same as the installation
* partition. Otherwise we just require a filesystem check on it,
* and start by formatting the installation partition instead.
*/
ASSERT(SystemPartition->IsPartitioned);
if ((SystemPartition != InstallPartition) &&
(SystemPartition->FormatState == Unformatted))
{
TempPartition = SystemPartition;
TempPartition->NeedsCheck = TRUE;
// TODO: Should we let the user using a custom file-system,
// or should we always use FAT(32) for it?
// For "compatibility", FAT(32) would be best indeed.
FormatState = FormatSystemPartition;
DPRINT1("FormatState: Start --> FormatSystemPartition\n");
}
else
{
TempPartition = InstallPartition;
TempPartition->NeedsCheck = TRUE;
if (SystemPartition != InstallPartition)
{
/* The system partition is separate, so it had better be formatted! */
ASSERT((SystemPartition->FormatState == Preformatted) ||
(SystemPartition->FormatState == Formatted));
/* Require a filesystem check on the system partition too */
SystemPartition->NeedsCheck = TRUE;
}
FormatState = FormatInstallPartition;
DPRINT1("FormatState: Start --> FormatInstallPartition\n");
}
break;
}
case FormatSystemPartition:
{
TempPartition = InstallPartition;
TempPartition->NeedsCheck = TRUE;
FormatState = FormatInstallPartition;
DPRINT1("FormatState: FormatSystemPartition --> FormatInstallPartition\n");
break;
}
case FormatInstallPartition:
case FormatOtherPartition:
{
if (GetNextUnformattedPartition(PartitionList,
NULL,
&TempPartition))
{
FormatState = FormatOtherPartition;
TempPartition->NeedsCheck = TRUE;
if (FormatState == FormatInstallPartition)
DPRINT1("FormatState: FormatInstallPartition --> FormatOtherPartition\n");
else
DPRINT1("FormatState: FormatOtherPartition --> FormatOtherPartition\n");
}
else
{
FormatState = FormatDone;
if (FormatState == FormatInstallPartition)
DPRINT1("FormatState: FormatInstallPartition --> FormatDone\n");
else
DPRINT1("FormatState: FormatOtherPartition --> FormatDone\n");
return CHECK_FILE_SYSTEM_PAGE;
}
break;
}
case FormatDone:
{
DPRINT1("FormatState: FormatDone\n");
return CHECK_FILE_SYSTEM_PAGE;
}
default:
{
DPRINT1("FormatState: Invalid value %ld\n", FormatState);
ASSERT(FALSE);
return QUIT_PAGE;
}
}
PartEntry = TempPartition;
DiskEntry = TempPartition->DiskEntry;
ASSERT(PartEntry->IsPartitioned && PartEntry->PartitionNumber != 0);
MUIDisplayPage(SELECT_FILE_SYSTEM_PAGE);
if (PartEntry->AutoCreate)
{
CONSOLE_SetTextXY(6, 8, MUIGetString(STRING_NEWPARTITION));
#if 0
PartitionDescription(PartEntry, LineBuffer, ARRAYSIZE(LineBuffer));
CONSOLE_SetTextXY(8, 10, LineBuffer);
#endif
DiskDescription(DiskEntry, LineBuffer, ARRAYSIZE(LineBuffer));
CONSOLE_PrintTextXY(8, 10, MUIGetString(STRING_HDINFOPARTCREATE_1),
LineBuffer);
CONSOLE_SetTextXY(6, 12, MUIGetString(STRING_PARTFORMAT));
PartEntry->AutoCreate = FALSE;
}
else if (PartEntry->New)
{
switch (FormatState)
{
case FormatSystemPartition:
CONSOLE_SetTextXY(6, 8, MUIGetString(STRING_NONFORMATTEDSYSTEMPART));
break;
case FormatInstallPartition:
CONSOLE_SetTextXY(6, 8, MUIGetString(STRING_NONFORMATTEDPART));
break;
case FormatOtherPartition:
CONSOLE_SetTextXY(6, 8, MUIGetString(STRING_NONFORMATTEDOTHERPART));
break;
default:
ASSERT(FALSE);
break;
}
DiskDescription(DiskEntry, LineBuffer, ARRAYSIZE(LineBuffer));
CONSOLE_PrintTextXY(8, 10, MUIGetString(STRING_HDINFOPARTCREATE_1),
LineBuffer);
CONSOLE_SetTextXY(6, 12, MUIGetString(STRING_PARTFORMAT));
}
else
{
CONSOLE_SetTextXY(6, 8, MUIGetString(STRING_INSTALLONPART));
PartitionDescription(PartEntry, LineBuffer, ARRAYSIZE(LineBuffer));
CONSOLE_SetTextXY(8, 10, LineBuffer);
DiskDescription(DiskEntry, LineBuffer, ARRAYSIZE(LineBuffer));
CONSOLE_PrintTextXY(6, 12, MUIGetString(STRING_HDINFOPARTDELETE_1),
LineBuffer);
}
ASSERT(FileSystemList == NULL);
if (IsUnattendedSetup)
{
ASSERT(USetupData.FormatPartition);
switch (USetupData.FsType)
{
/* 1 is for BtrFS */
case 1:
DefaultFs = L"BTRFS";
break;
/* If we don't understand input, default to FAT */
default:
DefaultFs = L"FAT";
break;
}
}
else
{
/* By default select the "FAT" file system */
DefaultFs = L"FAT";
}
/* Create the file system list */
// TODO: Display only the FSes compatible with the selected partition!
FileSystemList = CreateFileSystemList(6, 26,
PartEntry->New ||
PartEntry->FormatState == Unformatted,
DefaultFs);
if (FileSystemList == NULL)
{
/* FIXME: show an error dialog */
return QUIT_PAGE;
}
if (IsUnattendedSetup)
{
ASSERT(USetupData.FormatPartition);
return FORMAT_PARTITION_PAGE;
}
DrawFileSystemList(FileSystemList);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (ConfirmQuit(Ir))
{
/* Reset the filesystem list */
ResetFileSystemList();
return QUIT_PAGE;
}
break;
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == VK_ESCAPE) /* ESC */
{
/* Reset the formatter machine state */
TempPartition = NULL;
FormatState = Start;
/* Reset the filesystem list */
ResetFileSystemList();
return SELECT_PARTITION_PAGE;
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_DOWN)) /* DOWN */
{
ScrollDownFileSystemList(FileSystemList);
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_UP)) /* UP */
{
ScrollUpFileSystemList(FileSystemList);
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == VK_RETURN) /* ENTER */
{
if (!FileSystemList->Selected->FileSystem)
{
ASSERT(!TempPartition->New && TempPartition->FormatState != Unformatted);
/*
* Skip formatting this partition. We will also ignore
* filesystem checks on it, unless it is either the system
* or the installation partition.
*/
if (TempPartition != SystemPartition &&
TempPartition != InstallPartition)
{
PartEntry->NeedsCheck = FALSE;
}
return SELECT_FILE_SYSTEM_PAGE;
}
else
{
/* Format this partition */
return FORMAT_PARTITION_PAGE;
}
}
}
FormatState = PreviousFormatState;
return SELECT_FILE_SYSTEM_PAGE;
}
/*
* Displays the FormatPartitionPage.
*
* Next pages:
* InstallDirectoryPage (At once if IsUnattendedSetup or InstallShortcut)
* SelectPartitionPage (At once)
* QuitPage
*
* SIDEEFFECTS
* Sets InstallPartition->FormatState
* Sets USetupData.DestinationRootPath
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
FormatPartitionPage(PINPUT_RECORD Ir)
{
NTSTATUS Status;
PPARTENTRY PartEntry;
PDISKENTRY DiskEntry;
PFILE_SYSTEM_ITEM SelectedFileSystem;
WCHAR PathBuffer[MAX_PATH];
CHAR Buffer[MAX_PATH];
DPRINT("FormatPartitionPage()\n");
MUIDisplayPage(FORMAT_PARTITION_PAGE);
if (PartitionList == NULL || TempPartition == NULL)
{
/* FIXME: show an error dialog */
return QUIT_PAGE;
}
PartEntry = TempPartition;
DiskEntry = TempPartition->DiskEntry;
ASSERT(PartEntry->IsPartitioned && PartEntry->PartitionNumber != 0);
SelectedFileSystem = FileSystemList->Selected;
ASSERT(SelectedFileSystem && SelectedFileSystem->FileSystem);
while (TRUE)
{
if (!IsUnattendedSetup)
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (ConfirmQuit(Ir))
{
/* Reset the filesystem list */
ResetFileSystemList();
return QUIT_PAGE;
}
break;
}
else if (Ir->Event.KeyEvent.wVirtualKeyCode == VK_RETURN || IsUnattendedSetup) /* ENTER */
{
/*
* Remove the "Press ENTER to continue" message prompt when the ENTER
* key is pressed as the user wants to begin the partition formatting.
*/
MUIClearStyledText(FORMAT_PARTITION_PAGE, TEXT_ID_FORMAT_PROMPT, TEXT_TYPE_REGULAR);
CONSOLE_SetStatusText(MUIGetString(STRING_PLEASEWAIT));
/* Format the partition */
Status = DoFormat(PartEntry,
SelectedFileSystem->FileSystem,
SelectedFileSystem->QuickFormat);
if (Status == STATUS_PARTITION_FAILURE)
{
MUIDisplayError(ERROR_WRITE_PTABLE, Ir, POPUP_WAIT_ENTER);
/* Reset the filesystem list */
ResetFileSystemList();
return QUIT_PAGE;
}
else if (Status == STATUS_UNRECOGNIZED_VOLUME)
{
/* FIXME: show an error dialog */
// MUIDisplayError(ERROR_FORMATTING_PARTITION, Ir, POPUP_WAIT_ANY_KEY, PathBuffer);
/* Reset the filesystem list */
ResetFileSystemList();
return QUIT_PAGE;
}
else if (Status == STATUS_NOT_SUPPORTED)
{
RtlStringCbPrintfA(Buffer,
sizeof(Buffer),
"Setup is currently unable to format a partition in %S.\n"
"\n"
" \x07 Press ENTER to continue Setup.\n"
" \x07 Press F3 to quit Setup.",
SelectedFileSystem->FileSystem);
PopupError(Buffer,
MUIGetString(STRING_QUITCONTINUE),
NULL, POPUP_WAIT_NONE);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x00 &&
Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3) /* F3 */
{
if (ConfirmQuit(Ir))
{
/* Reset the filesystem list */
ResetFileSystemList();
return QUIT_PAGE;
}
else
{
return SELECT_FILE_SYSTEM_PAGE;
}
}
else if (Ir->Event.KeyEvent.uChar.AsciiChar == VK_RETURN) /* ENTER */
{
return SELECT_FILE_SYSTEM_PAGE;
}
}
}
else if (!NT_SUCCESS(Status))
{
/** HACK!! **/
RtlStringCchPrintfW(PathBuffer, ARRAYSIZE(PathBuffer),
L"\\Device\\Harddisk%lu\\Partition%lu",
DiskEntry->DiskNumber,
PartEntry->PartitionNumber);
DPRINT1("FormatPartition() failed with status 0x%08lx\n", Status);
MUIDisplayError(ERROR_FORMATTING_PARTITION, Ir, POPUP_WAIT_ANY_KEY, PathBuffer);
/* Reset the filesystem list */
ResetFileSystemList();
return QUIT_PAGE;
}
return SELECT_FILE_SYSTEM_PAGE;
}
}
return FORMAT_PARTITION_PAGE;
}
/*
* Displays the CheckFileSystemPage.
*
* Next pages:
* InstallDirectoryPage (At once)
* QuitPage
*
* SIDEEFFECTS
* Inits or reloads FileSystemList
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
CheckFileSystemPage(PINPUT_RECORD Ir)
{
NTSTATUS Status;
PPARTENTRY PartEntry;
CHAR Buffer[MAX_PATH];
MUIDisplayPage(CHECK_FILE_SYSTEM_PAGE);
if (PartitionList == NULL)
{
/* FIXME: show an error dialog */
return QUIT_PAGE;
}
if (!GetNextUncheckedPartition(PartitionList, NULL, &PartEntry))
{
return INSTALL_DIRECTORY_PAGE;
}
ASSERT(PartEntry->IsPartitioned && PartEntry->PartitionNumber != 0);
DPRINT1("CheckFileSystemPage -- PartitionType: 0x%02X ; FileSystem: %S\n",
PartEntry->PartitionType, (*PartEntry->FileSystem ? PartEntry->FileSystem : L"n/a"));
/* Check the partition */
Status = DoChkdsk(PartEntry);
if (Status == STATUS_NOT_SUPPORTED)
{
/*
* Partition checking is not supported with the current filesystem,
* so disable FS checks on it.
*/
PartEntry->NeedsCheck = FALSE;
RtlStringCbPrintfA(Buffer,
sizeof(Buffer),
"Setup is currently unable to check a partition formatted in %S.\n"
"\n"
" \x07 Press ENTER to continue Setup.\n"
" \x07 Press F3 to quit Setup.",
PartEntry->FileSystem);
PopupError(Buffer,
MUIGetString(STRING_QUITCONTINUE),
NULL, POPUP_WAIT_NONE);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x00 &&
Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3) /* F3 */
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
else
return CHECK_FILE_SYSTEM_PAGE;
}
else if (Ir->Event.KeyEvent.uChar.AsciiChar == VK_RETURN) /* ENTER */
{
return CHECK_FILE_SYSTEM_PAGE;
}
}
}
else if (!NT_SUCCESS(Status))
{
DPRINT1("ChkdskPartition() failed with status 0x%08lx\n", Status);
RtlStringCbPrintfA(Buffer,
sizeof(Buffer),
"ChkDsk detected some disk errors.\n(Status 0x%08lx).\n",
Status);
PopupError(Buffer,
MUIGetString(STRING_CONTINUE),
Ir, POPUP_WAIT_ENTER);
}
PartEntry->NeedsCheck = FALSE;
return CHECK_FILE_SYSTEM_PAGE;
}
static BOOLEAN
IsValidPath(
IN PCWSTR InstallDir)
{
UINT i, Length;
Length = wcslen(InstallDir);
// TODO: Add check for 8.3 too.
/* Path must be at least 2 characters long */
// if (Length < 2)
// return FALSE;
/* Path must start with a backslash */
// if (InstallDir[0] != L'\\')
// return FALSE;
/* Path must not end with a backslash */
if (InstallDir[Length - 1] == L'\\')
return FALSE;
/* Path must not contain whitespace characters */
for (i = 0; i < Length; i++)
{
if (iswspace(InstallDir[i]))
return FALSE;
}
/* Path component must not end with a dot */
for (i = 0; i < Length; i++)
{
if (InstallDir[i] == L'\\' && i > 0)
{
if (InstallDir[i - 1] == L'.')
return FALSE;
}
}
if (InstallDir[Length - 1] == L'.')
return FALSE;
return TRUE;
}
/*
* Displays the InstallDirectoryPage.
*
* Next pages:
* PrepareCopyPage
* QuitPage
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
InstallDirectoryPage(PINPUT_RECORD Ir)
{
NTSTATUS Status;
ULONG Length, Pos;
WCHAR c;
WCHAR InstallDir[MAX_PATH];
/* We do not need the filesystem list anymore */
ResetFileSystemList();
if (PartitionList == NULL || InstallPartition == NULL)
{
/* FIXME: show an error dialog */
return QUIT_PAGE;
}
// if (IsUnattendedSetup)
if (RepairUpdateFlag)
wcscpy(InstallDir, CurrentInstallation->PathComponent); // SystemNtPath
else if (USetupData.InstallationDirectory[0])
wcscpy(InstallDir, USetupData.InstallationDirectory);
else
wcscpy(InstallDir, L"\\ReactOS");
/*
* Check the validity of the predefined 'InstallDir'. If we are either
* in unattended setup or in update/repair mode, and the installation path
* is valid, just perform the installation. Otherwise (either in the case
* of an invalid path, or we are in regular setup), display the UI and allow
* the user to specify a new installation path.
*/
if ((RepairUpdateFlag || IsUnattendedSetup) && IsValidPath(InstallDir))
{
Status = InitDestinationPaths(&USetupData, InstallDir, InstallPartition);
if (!NT_SUCCESS(Status))
{
DPRINT1("InitDestinationPaths() failed. Status code: 0x%lx", Status);
MUIDisplayError(ERROR_NO_BUILD_PATH, Ir, POPUP_WAIT_ENTER);
return QUIT_PAGE;
}
/*
* Check whether the user attempts to install ReactOS within the
* installation source directory, or in a subdirectory thereof.
* If so, fail with an error.
*/
if (RtlPrefixUnicodeString(&USetupData.SourcePath, &USetupData.DestinationPath, TRUE))
{
MUIDisplayError(ERROR_SOURCE_DIR, Ir, POPUP_WAIT_ENTER);
return INSTALL_DIRECTORY_PAGE;
}
return PREPARE_COPY_PAGE;
}
Length = wcslen(InstallDir);
Pos = Length;
MUIDisplayPage(INSTALL_DIRECTORY_PAGE);
CONSOLE_SetInputTextXY(8, 11, 51, InstallDir);
CONSOLE_SetCursorXY(8 + Pos, 11);
CONSOLE_SetCursorType(TRUE, TRUE);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
CONSOLE_SetCursorType(TRUE, FALSE);
if (ConfirmQuit(Ir))
return QUIT_PAGE;
CONSOLE_SetCursorType(TRUE, TRUE);
break;
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_DELETE)) /* DEL */
{
if (Pos < Length)
{
memmove(&InstallDir[Pos],
&InstallDir[Pos + 1],
(Length - Pos - 1) * sizeof(WCHAR));
InstallDir[Length - 1] = UNICODE_NULL;
Length--;
CONSOLE_SetInputTextXY(8, 11, 51, InstallDir);
CONSOLE_SetCursorXY(8 + Pos, 11);
}
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_HOME)) /* HOME */
{
Pos = 0;
CONSOLE_SetCursorXY(8 + Pos, 11);
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_END)) /* END */
{
Pos = Length;
CONSOLE_SetCursorXY(8 + Pos, 11);
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_LEFT)) /* LEFT */
{
if (Pos > 0)
{
Pos--;
CONSOLE_SetCursorXY(8 + Pos, 11);
}
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_RIGHT)) /* RIGHT */
{
if (Pos < Length)
{
Pos++;
CONSOLE_SetCursorXY(8 + Pos, 11);
}
}
else if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
{
CONSOLE_SetCursorType(TRUE, FALSE);
/*
* Check for the validity of the installation directory and pop up
* an error if it is not the case. Then the user can fix its input.
*/
if (!IsValidPath(InstallDir))
{
MUIDisplayError(ERROR_DIRECTORY_NAME, Ir, POPUP_WAIT_ENTER);
return INSTALL_DIRECTORY_PAGE;
}
Status = InitDestinationPaths(&USetupData, InstallDir, InstallPartition);
if (!NT_SUCCESS(Status))
{
DPRINT1("InitDestinationPaths() failed. Status code: 0x%lx", Status);
MUIDisplayError(ERROR_NO_BUILD_PATH, Ir, POPUP_WAIT_ENTER);
return QUIT_PAGE;
}
/*
* Check whether the user attempts to install ReactOS within the
* installation source directory, or in a subdirectory thereof.
* If so, fail with an error.
*/
if (RtlPrefixUnicodeString(&USetupData.SourcePath, &USetupData.DestinationPath, TRUE))
{
MUIDisplayError(ERROR_SOURCE_DIR, Ir, POPUP_WAIT_ENTER);
return INSTALL_DIRECTORY_PAGE;
}
return PREPARE_COPY_PAGE;
}
else if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x08) /* BACKSPACE */
{
if (Pos > 0)
{
if (Pos < Length)
memmove(&InstallDir[Pos - 1],
&InstallDir[Pos],
(Length - Pos) * sizeof(WCHAR));
InstallDir[Length - 1] = UNICODE_NULL;
Pos--;
Length--;
CONSOLE_SetInputTextXY(8, 11, 51, InstallDir);
CONSOLE_SetCursorXY(8 + Pos, 11);
}
}
else if (isprint(Ir->Event.KeyEvent.uChar.AsciiChar))
{
if (Length < 50)
{
c = (WCHAR)Ir->Event.KeyEvent.uChar.AsciiChar;
if (iswalpha(c) || iswdigit(c) || c == '.' || c == '\\' || c == '-' || c == '_')
{
if (Pos < Length)
memmove(&InstallDir[Pos + 1],
&InstallDir[Pos],
(Length - Pos) * sizeof(WCHAR));
InstallDir[Length + 1] = UNICODE_NULL;
InstallDir[Pos] = c;
Pos++;
Length++;
CONSOLE_SetInputTextXY(8, 11, 51, InstallDir);
CONSOLE_SetCursorXY(8 + Pos, 11);
}
}
}
}
return INSTALL_DIRECTORY_PAGE;
}
// PSETUP_ERROR_ROUTINE
static VOID
__cdecl
USetupErrorRoutine(
IN PUSETUP_DATA pSetupData,
...)
{
INPUT_RECORD Ir;
va_list arg_ptr;
va_start(arg_ptr, pSetupData);
if (pSetupData->LastErrorNumber >= ERROR_SUCCESS &&
pSetupData->LastErrorNumber < ERROR_LAST_ERROR_CODE)
{
// Note: the "POPUP_WAIT_ENTER" actually depends on the LastErrorNumber...
MUIDisplayErrorV(pSetupData->LastErrorNumber, &Ir, POPUP_WAIT_ENTER, arg_ptr);
}
va_end(arg_ptr);
}
/*
* Displays the PrepareCopyPage.
*
* Next pages:
* FileCopyPage(At once)
* QuitPage
*
* SIDEEFFECTS
* Calls PrepareFileCopy
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
PrepareCopyPage(PINPUT_RECORD Ir)
{
// ERROR_NUMBER ErrorNumber;
BOOLEAN Success;
MUIDisplayPage(PREPARE_COPY_PAGE);
/* ErrorNumber = */ Success = PrepareFileCopy(&USetupData, NULL);
if (/*ErrorNumber != ERROR_SUCCESS*/ !Success)
{
// MUIDisplayError(ErrorNumber, Ir, POPUP_WAIT_ENTER);
return QUIT_PAGE;
}
return FILE_COPY_PAGE;
}
typedef struct _COPYCONTEXT
{
ULONG TotalOperations;
ULONG CompletedOperations;
PPROGRESSBAR ProgressBar;
PPROGRESSBAR MemoryBars[4];
} COPYCONTEXT, *PCOPYCONTEXT;
static VOID
SetupUpdateMemoryInfo(IN PCOPYCONTEXT CopyContext,
IN BOOLEAN First)
{
SYSTEM_PERFORMANCE_INFORMATION PerfInfo;
/* Get the memory information from the system */
NtQuerySystemInformation(SystemPerformanceInformation,
&PerfInfo,
sizeof(PerfInfo),
NULL);
/* Check if this is initial setup */
if (First)
{
/* Set maximum limits to be total RAM pages */
ProgressSetStepCount(CopyContext->MemoryBars[0], PerfInfo.CommitLimit);
ProgressSetStepCount(CopyContext->MemoryBars[1], PerfInfo.CommitLimit);
ProgressSetStepCount(CopyContext->MemoryBars[2], PerfInfo.CommitLimit);
}
/* Set current values */
ProgressSetStep(CopyContext->MemoryBars[0], PerfInfo.PagedPoolPages + PerfInfo.NonPagedPoolPages);
ProgressSetStep(CopyContext->MemoryBars[1], PerfInfo.ResidentSystemCachePage);
ProgressSetStep(CopyContext->MemoryBars[2], PerfInfo.AvailablePages);
}
static UINT
CALLBACK
FileCopyCallback(PVOID Context,
UINT Notification,
UINT_PTR Param1,
UINT_PTR Param2)
{
PCOPYCONTEXT CopyContext = (PCOPYCONTEXT)Context;
PFILEPATHS_W FilePathInfo;
PCWSTR SrcFileName, DstFileName;
switch (Notification)
{
case SPFILENOTIFY_STARTSUBQUEUE:
{
CopyContext->TotalOperations = (ULONG)Param2;
CopyContext->CompletedOperations = 0;
ProgressSetStepCount(CopyContext->ProgressBar,
CopyContext->TotalOperations);
SetupUpdateMemoryInfo(CopyContext, TRUE);
break;
}
case SPFILENOTIFY_STARTDELETE:
case SPFILENOTIFY_STARTRENAME:
case SPFILENOTIFY_STARTCOPY:
{
FilePathInfo = (PFILEPATHS_W)Param1;
if (Notification == SPFILENOTIFY_STARTDELETE)
{
/* Display delete message */
ASSERT(Param2 == FILEOP_DELETE);
DstFileName = wcsrchr(FilePathInfo->Target, L'\\');
if (DstFileName) ++DstFileName;
else DstFileName = FilePathInfo->Target;
CONSOLE_SetStatusText(MUIGetString(STRING_DELETING),
DstFileName);
}
else if (Notification == SPFILENOTIFY_STARTRENAME)
{
/* Display move/rename message */
ASSERT(Param2 == FILEOP_RENAME);
SrcFileName = wcsrchr(FilePathInfo->Source, L'\\');
if (SrcFileName) ++SrcFileName;
else SrcFileName = FilePathInfo->Source;
DstFileName = wcsrchr(FilePathInfo->Target, L'\\');
if (DstFileName) ++DstFileName;
else DstFileName = FilePathInfo->Target;
if (!wcsicmp(SrcFileName, DstFileName))
Param2 = STRING_MOVING;
else
Param2 = STRING_RENAMING;
CONSOLE_SetStatusText(MUIGetString(Param2),
SrcFileName, DstFileName);
}
else if (Notification == SPFILENOTIFY_STARTCOPY)
{
/* Display copy message */
ASSERT(Param2 == FILEOP_COPY);
/* NOTE: When extracting from CABs the Source is the CAB name */
DstFileName = wcsrchr(FilePathInfo->Target, L'\\');
if (DstFileName) ++DstFileName;
else DstFileName = FilePathInfo->Target;
CONSOLE_SetStatusText(MUIGetString(STRING_COPYING),
DstFileName);
#ifdef __REACTOS__ /* HACK */
DoWatchDestFileName(DstFileName);
#endif
}
SetupUpdateMemoryInfo(CopyContext, FALSE);
break;
}
case SPFILENOTIFY_COPYERROR:
{
FilePathInfo = (PFILEPATHS_W)Param1;
DPRINT1("An error happened while trying to copy file '%S' (error 0x%08lx), skipping it...\n",
FilePathInfo->Target, FilePathInfo->Win32Error);
return FILEOP_SKIP;
}
case SPFILENOTIFY_ENDDELETE:
case SPFILENOTIFY_ENDRENAME:
case SPFILENOTIFY_ENDCOPY:
{
CopyContext->CompletedOperations++;
/* SYSREG checkpoint */
if (CopyContext->TotalOperations >> 1 == CopyContext->CompletedOperations)
DPRINT1("CHECKPOINT:HALF_COPIED\n");
ProgressNextStep(CopyContext->ProgressBar);
SetupUpdateMemoryInfo(CopyContext, FALSE);
break;
}
}
return FILEOP_DOIT;
}
/*
* Displays the FileCopyPage.
*
* Next pages:
* RegistryPage(At once)
*
* SIDEEFFECTS
* Calls DoFileCopy
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
FileCopyPage(PINPUT_RECORD Ir)
{
COPYCONTEXT CopyContext;
UINT MemBarWidth;
MUIDisplayPage(FILE_COPY_PAGE);
/* Create context for the copy process */
CopyContext.TotalOperations = 0;
CopyContext.CompletedOperations = 0;
/* Create the progress bar as well */
CopyContext.ProgressBar = CreateProgressBar(13,
26,
xScreen - 13,
yScreen - 20,
10,
24,
TRUE,
MUIGetString(STRING_SETUPCOPYINGFILES));
// fit memory bars to screen width, distribute them uniform
MemBarWidth = (xScreen - 26) / 5;
MemBarWidth -= MemBarWidth % 2; // make even
/* ATTENTION: The following progress bars are debug stuff, which should not be translated!! */
/* Create the paged pool progress bar */
CopyContext.MemoryBars[0] = CreateProgressBar(13,
40,
13 + MemBarWidth,
43,
13,
44,
FALSE,
"Kernel Pool");
/* Create the non paged pool progress bar */
CopyContext.MemoryBars[1] = CreateProgressBar((xScreen / 2)- (MemBarWidth / 2),
40,
(xScreen / 2) + (MemBarWidth / 2),
43,
(xScreen / 2)- (MemBarWidth / 2),
44,
FALSE,
"Kernel Cache");
/* Create the global memory progress bar */
CopyContext.MemoryBars[2] = CreateProgressBar(xScreen - 13 - MemBarWidth,
40,
xScreen - 13,
43,
xScreen - 13 - MemBarWidth,
44,
FALSE,
"Free Memory");
/* Do the file copying */
DoFileCopy(&USetupData, FileCopyCallback, &CopyContext);
/* If we get here, we're done, so cleanup the progress bar */
DestroyProgressBar(CopyContext.ProgressBar);
DestroyProgressBar(CopyContext.MemoryBars[0]);
DestroyProgressBar(CopyContext.MemoryBars[1]);
DestroyProgressBar(CopyContext.MemoryBars[2]);
/* Create the $winnt$.inf file */
InstallSetupInfFile(&USetupData);
/* Go display the next page */
return REGISTRY_PAGE;
}
static VOID
__cdecl
RegistryStatus(IN REGISTRY_STATUS RegStatus, ...)
{
/* WARNING: Please keep this lookup table in sync with the resources! */
static const UINT StringIDs[] =
{
STRING_DONE, /* Success */
STRING_REGHIVEUPDATE, /* RegHiveUpdate */
STRING_IMPORTFILE, /* ImportRegHive */
STRING_DISPLAYSETTINGSUPDATE, /* DisplaySettingsUpdate */
STRING_LOCALESETTINGSUPDATE, /* LocaleSettingsUpdate */
STRING_ADDKBLAYOUTS, /* KeybLayouts */
STRING_KEYBOARDSETTINGSUPDATE, /* KeybSettingsUpdate */
STRING_CODEPAGEINFOUPDATE, /* CodePageInfoUpdate */
};
va_list args;
if (RegStatus < ARRAYSIZE(StringIDs))
{
va_start(args, RegStatus);
CONSOLE_SetStatusTextV(MUIGetString(StringIDs[RegStatus]), args);
va_end(args);
}
else
{
CONSOLE_SetStatusText("Unknown status %d", RegStatus);
}
}
/*
* Displays the RegistryPage.
*
* Next pages:
* SuccessPage (if RepairUpdate)
* BootLoaderPage (default)
* QuitPage
*
* SIDEEFFECTS
* Calls UpdateRegistry
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
RegistryPage(PINPUT_RECORD Ir)
{
ULONG Error;
MUIDisplayPage(REGISTRY_PAGE);
Error = UpdateRegistry(&USetupData,
RepairUpdateFlag,
PartitionList,
InstallPartition->DriveLetter,
SelectedLanguageId,
RegistryStatus,
&s_SubstSettings);
if (Error != ERROR_SUCCESS)
{
MUIDisplayError(Error, Ir, POPUP_WAIT_ENTER);
return QUIT_PAGE;
}
else
{
CONSOLE_SetStatusText(MUIGetString(STRING_DONE));
return BOOT_LOADER_PAGE;
}
}
/*
* Displays the BootLoaderPage.
*
* Next pages:
* SuccessPage (if RepairUpdate)
* BootLoaderHarddiskMbrPage
* BootLoaderHarddiskVbrPage
* BootLoaderFloppyPage
* SuccessPage
* QuitPage
*
* SIDEEFFECTS
* Calls RegInitializeRegistry
* Calls ImportRegistryFile
* Calls SetDefaultPagefile
* Calls SetMountedDeviceValues
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
BootLoaderPage(PINPUT_RECORD Ir)
{
USHORT Line = 12;
WCHAR PathBuffer[MAX_PATH];
CONSOLE_SetStatusText(MUIGetString(STRING_PLEASEWAIT));
/* We must have a supported system partition by now */
ASSERT(SystemPartition && SystemPartition->IsPartitioned && SystemPartition->PartitionNumber != 0);
RtlFreeUnicodeString(&USetupData.SystemRootPath);
RtlStringCchPrintfW(PathBuffer, ARRAYSIZE(PathBuffer),
L"\\Device\\Harddisk%lu\\Partition%lu\\",
SystemPartition->DiskEntry->DiskNumber,
SystemPartition->PartitionNumber);
RtlCreateUnicodeString(&USetupData.SystemRootPath, PathBuffer);
DPRINT1("SystemRootPath: %wZ\n", &USetupData.SystemRootPath);
/* For unattended setup, skip MBR installation or install on floppy if needed */
if (IsUnattendedSetup)
{
if ((USetupData.MBRInstallType == 0) ||
(USetupData.MBRInstallType == 1))
{
goto Quit;
}
}
/*
* We may install an MBR or VBR, but before that, check whether
* we need to actually install the VBR on floppy/removable media
* if the system partition is not recognized.
*/
if ((SystemPartition->DiskEntry->DiskStyle != PARTITION_STYLE_MBR) ||
!IsRecognizedPartition(SystemPartition->PartitionType))
{
USetupData.MBRInstallType = 1;
goto Quit;
}
/* Is it an unattended install on hdd? */
if (IsUnattendedSetup)
{
if ((USetupData.MBRInstallType == 2) ||
(USetupData.MBRInstallType == 3))
{
goto Quit;
}
}
MUIDisplayPage(BOOT_LOADER_PAGE);
CONSOLE_InvertTextXY(8, Line, 60, 1);
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_DOWN)) /* DOWN */
{
CONSOLE_NormalTextXY(8, Line, 60, 1);
Line++;
if (Line < 12)
Line = 15;
if (Line > 15)
Line = 12;
CONSOLE_InvertTextXY(8, Line, 60, 1);
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_UP)) /* UP */
{
CONSOLE_NormalTextXY(8, Line, 60, 1);
Line--;
if (Line < 12)
Line = 15;
if (Line > 15)
Line = 12;
CONSOLE_InvertTextXY(8, Line, 60, 1);
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_HOME)) /* HOME */
{
CONSOLE_NormalTextXY(8, Line, 60, 1);
Line = 12;
CONSOLE_InvertTextXY(8, Line, 60, 1);
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_END)) /* END */
{
CONSOLE_NormalTextXY(8, Line, 60, 1);
Line = 15;
CONSOLE_InvertTextXY(8, Line, 60, 1);
}
else if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
break;
}
else if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
{
if (Line == 12)
{
/* Install on both MBR and VBR */
USetupData.MBRInstallType = 2;
break;
}
else if (Line == 13)
{
/* Install on VBR only */
USetupData.MBRInstallType = 3;
break;
}
else if (Line == 14)
{
/* Install on floppy */
USetupData.MBRInstallType = 1;
break;
}
else if (Line == 15)
{
/* Skip MBR installation */
USetupData.MBRInstallType = 0;
break;
}
return BOOT_LOADER_PAGE;
}
}
Quit:
switch (USetupData.MBRInstallType)
{
/* Skip MBR installation */
case 0:
return SUCCESS_PAGE;
/* Install on floppy */
case 1:
return BOOT_LOADER_FLOPPY_PAGE;
/* Install on both MBR and VBR or VBR only */
case 2:
case 3:
return BOOT_LOADER_INSTALLATION_PAGE;
}
return BOOT_LOADER_PAGE;
}
/*
* Displays the BootLoaderFloppyPage.
*
* Next pages:
* SuccessPage (At once)
* QuitPage
*
* SIDEEFFECTS
* Calls InstallFatBootcodeToFloppy()
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
BootLoaderFloppyPage(PINPUT_RECORD Ir)
{
NTSTATUS Status;
MUIDisplayPage(BOOT_LOADER_FLOPPY_PAGE);
// CONSOLE_SetStatusText(MUIGetString(STRING_PLEASEWAIT));
while (TRUE)
{
CONSOLE_ConInKey(Ir);
if ((Ir->Event.KeyEvent.uChar.AsciiChar == 0x00) &&
(Ir->Event.KeyEvent.wVirtualKeyCode == VK_F3)) /* F3 */
{
if (ConfirmQuit(Ir))
return QUIT_PAGE;
break;
}
else if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
{
Status = InstallFatBootcodeToFloppy(&USetupData.SourceRootPath,
&USetupData.DestinationArcPath);
if (!NT_SUCCESS(Status))
{
if (Status == STATUS_DEVICE_NOT_READY)
MUIDisplayError(ERROR_NO_FLOPPY, Ir, POPUP_WAIT_ENTER);
/* TODO: Print error message */
return BOOT_LOADER_FLOPPY_PAGE;
}
return SUCCESS_PAGE;
}
}
return BOOT_LOADER_FLOPPY_PAGE;
}
/*
* Displays the BootLoaderInstallationPage.
*
* Next pages:
* SuccessPage (At once)
* QuitPage
*
* SIDEEFFECTS
* Calls InstallVBRToPartition() if VBR installation is chosen.
* Otherwise both InstallVBRToPartition() and InstallMbrBootCodeToDisk()
* are called if both MBR and VBR installation is chosen.
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
BootLoaderInstallationPage(PINPUT_RECORD Ir)
{
NTSTATUS Status;
WCHAR DestinationDevicePathBuffer[MAX_PATH];
MUIDisplayPage(BOOT_LOADER_INSTALLATION_PAGE);
if (USetupData.MBRInstallType == 2)
{
/* Step 1: Write the VBR */
Status = InstallVBRToPartition(&USetupData.SystemRootPath,
&USetupData.SourceRootPath,
&USetupData.DestinationArcPath,
SystemPartition->FileSystem);
if (!NT_SUCCESS(Status))
{
MUIDisplayError(ERROR_WRITE_BOOT, Ir, POPUP_WAIT_ENTER,
SystemPartition->FileSystem);
return QUIT_PAGE;
}
/* Step 2: Write the MBR if the disk containing the system partition is not a super-floppy */
if (!IsSuperFloppy(SystemPartition->DiskEntry))
{
RtlStringCchPrintfW(DestinationDevicePathBuffer, ARRAYSIZE(DestinationDevicePathBuffer),
L"\\Device\\Harddisk%d\\Partition0",
SystemPartition->DiskEntry->DiskNumber);
Status = InstallMbrBootCodeToDisk(&USetupData.SystemRootPath,
&USetupData.SourceRootPath,
DestinationDevicePathBuffer);
if (!NT_SUCCESS(Status))
{
DPRINT1("InstallMbrBootCodeToDisk() failed (Status %lx)\n", Status);
MUIDisplayError(ERROR_INSTALL_BOOTCODE, Ir, POPUP_WAIT_ENTER, L"MBR");
return QUIT_PAGE;
}
}
}
else
{
Status = InstallVBRToPartition(&USetupData.SystemRootPath,
&USetupData.SourceRootPath,
&USetupData.DestinationArcPath,
SystemPartition->FileSystem);
if (!NT_SUCCESS(Status))
{
MUIDisplayError(ERROR_WRITE_BOOT, Ir, POPUP_WAIT_ENTER,
SystemPartition->FileSystem);
return QUIT_PAGE;
}
}
return SUCCESS_PAGE;
}
/**
* @name ProgressTimeOutStringHandler
*
* Handles the generation (displaying) of the timeout
* countdown to the screen dynamically.
*
* @param Bar
* A pointer to a progress bar.
*
* @param AlwaysUpdate
* Constantly update the progress bar (boolean type).
*
* @param Buffer
* A pointer to a string buffer.
*
* @param cchBufferSize
* The buffer's size in number of characters.
*
* @return
* TRUE or FALSE on function termination.
*
*/
static
BOOLEAN NTAPI
ProgressTimeOutStringHandler(
IN PPROGRESSBAR Bar,
IN BOOLEAN AlwaysUpdate,
OUT PSTR Buffer,
IN SIZE_T cchBufferSize)
{
ULONG OldProgress = Bar->Progress;
if (Bar->StepCount == 0)
{
Bar->Progress = 0;
}
else
{
Bar->Progress = Bar->StepCount - Bar->CurrentStep;
}
/* Build the progress string if it has changed */
if (Bar->ProgressFormatText &&
(AlwaysUpdate || (Bar->Progress != OldProgress)))
{
RtlStringCchPrintfA(Buffer, cchBufferSize,
Bar->ProgressFormatText, Bar->Progress / max(1, Bar->Width) + 1);
return TRUE;
}
return FALSE;
}
/**
* @name ProgressCountdown
*
* Displays and draws a red-coloured progress bar with a countdown.
* When the timeout is reached, the flush page is displayed for reboot.
*
* @param Ir
* A pointer to an input keyboard record.
*
* @param TimeOut
* Initial countdown value in seconds.
*
* @return
* Nothing.
*
*/
static VOID
ProgressCountdown(
IN PINPUT_RECORD Ir,
IN LONG TimeOut)
{
NTSTATUS Status;
ULONG StartTime, BarWidth, TimerDiv;
LONG TimeElapsed;
LONG TimerValue, OldTimerValue;
LARGE_INTEGER Timeout;
PPROGRESSBAR ProgressBar;
BOOLEAN RefreshProgress = TRUE;
/* Bail out if the timeout is already zero */
if (TimeOut <= 0)
return;
/* Create the timeout progress bar and set it up */
ProgressBar = CreateProgressBarEx(13,
26,
xScreen - 13,
yScreen - 20,
10,
24,
TRUE,
FOREGROUND_RED | BACKGROUND_BLUE,
0,
NULL,
MUIGetString(STRING_REBOOTPROGRESSBAR),
ProgressTimeOutStringHandler);
BarWidth = max(1, ProgressBar->Width);
TimerValue = TimeOut * BarWidth;
ProgressSetStepCount(ProgressBar, TimerValue);
StartTime = NtGetTickCount();
CONSOLE_Flush();
TimerDiv = 1000 / BarWidth;
TimerDiv = max(1, TimerDiv);
OldTimerValue = TimerValue;
while (TRUE)
{
/* Decrease the timer */
/*
* Compute how much time the previous operations took.
* This allows us in particular to take account for any time
* elapsed if something slowed down.
*/
TimeElapsed = NtGetTickCount() - StartTime;
if (TimeElapsed >= TimerDiv)
{
/* Increase StartTime by steps of 1 / ProgressBar->Width seconds */
TimeElapsed /= TimerDiv;
StartTime += (TimerDiv * TimeElapsed);
if (TimeElapsed <= TimerValue)
TimerValue -= TimeElapsed;
else
TimerValue = 0;
RefreshProgress = TRUE;
}
if (RefreshProgress)
{
ProgressSetStep(ProgressBar, OldTimerValue - TimerValue);
RefreshProgress = FALSE;
}
/* Stop when the timer reaches zero */
if (TimerValue <= 0)
break;
/* Check for user key presses */
/*
* If the timer is used, use a passive wait of maximum 1 second
* while monitoring for incoming console input events, so that
* we are still able to display the timing count.
*/
/* Wait a maximum of 1 second for input events */
TimeElapsed = NtGetTickCount() - StartTime;
if (TimeElapsed < TimerDiv)
{
/* Convert the time to NT format */
Timeout.QuadPart = (TimerDiv - TimeElapsed) * -10000LL;
Status = NtWaitForSingleObject(StdInput, FALSE, &Timeout);
}
else
{
Status = STATUS_TIMEOUT;
}
/* Check whether the input event has been signaled, or a timeout happened */
if (Status == STATUS_TIMEOUT)
{
continue;
}
if (Status != STATUS_WAIT_0)
{
/* An error happened, bail out */
DPRINT1("NtWaitForSingleObject() failed, Status 0x%08lx\n", Status);
break;
}
/* Check for an ENTER key press */
while (CONSOLE_ConInKeyPeek(Ir))
{
if (Ir->Event.KeyEvent.uChar.AsciiChar == 0x0D) /* ENTER */
{
/* Found it, stop waiting */
goto Exit;
}
}
}
Exit:
/* Destroy the progress bar and quit */
DestroyProgressBar(ProgressBar);
}
/*
* Displays the QuitPage.
*
* Next pages:
* FlushPage (At once)
*
* SIDEEFFECTS
* Destroy the Lists
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
QuitPage(PINPUT_RECORD Ir)
{
MUIDisplayPage(QUIT_PAGE);
/* Destroy the NTOS installations list */
if (NtOsInstallsList != NULL)
{
DestroyGenericList(NtOsInstallsList, TRUE);
NtOsInstallsList = NULL;
}
/* Destroy the partition list */
if (PartitionList != NULL)
{
DestroyPartitionList(PartitionList);
PartitionList = NULL;
}
/* Reset the formatter machine state */
TempPartition = NULL;
FormatState = Start;
/* Destroy the filesystem list */
ResetFileSystemList();
CONSOLE_SetStatusText(MUIGetString(STRING_REBOOTCOMPUTER2));
/* Wait for maximum 15 seconds or an ENTER key before quitting */
ProgressCountdown(Ir, 15);
return FLUSH_PAGE;
}
/*
* Displays the SuccessPage.
*
* Next pages:
* FlushPage (At once)
*
* SIDEEFFECTS
* Destroy the Lists
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
SuccessPage(PINPUT_RECORD Ir)
{
MUIDisplayPage(SUCCESS_PAGE);
if (IsUnattendedSetup)
return FLUSH_PAGE;
/* Wait for maximum 15 seconds or an ENTER key before quitting */
ProgressCountdown(Ir, 15);
return FLUSH_PAGE;
}
/*
* Displays the FlushPage.
*
* Next pages:
* RebootPage (At once)
*
* RETURNS
* Number of the next page.
*/
static PAGE_NUMBER
FlushPage(PINPUT_RECORD Ir)
{
MUIDisplayPage(FLUSH_PAGE);
return REBOOT_PAGE;
}
/*
* The start routine and page management
*/
NTSTATUS
RunUSetup(VOID)
{
NTSTATUS Status;
INPUT_RECORD Ir;
PAGE_NUMBER Page;
BOOLEAN Old;
InfSetHeap(ProcessHeap);
/* Tell the Cm this is a setup boot, and it has to behave accordingly */
Status = NtInitializeRegistry(CM_BOOT_FLAG_SETUP);
if (!NT_SUCCESS(Status))
DPRINT1("NtInitializeRegistry() failed (Status 0x%08lx)\n", Status);
/* Initialize the user-mode PnP manager */
Status = InitializeUserModePnpManager(&USetupData.SetupInf);
if (!NT_SUCCESS(Status))
{
// PrintString(??);
DPRINT1("The user-mode PnP manager could not initialize (Status 0x%08lx), expect unavailable devices!\n", Status);
}
if (!CONSOLE_Init())
{
PrintString(MUIGetString(STRING_CONSOLEFAIL1));
PrintString(MUIGetString(STRING_CONSOLEFAIL2));
PrintString(MUIGetString(STRING_CONSOLEFAIL3));
/* We failed to initialize the video, just quit the installer */
return STATUS_APP_INIT_FAILURE;
}
/* Initialize Setup, phase 0 */
InitializeSetup(&USetupData, 0);
USetupData.ErrorRoutine = USetupErrorRoutine;
/* Hide the cursor and clear the screen and keyboard buffer */
CONSOLE_SetCursorType(TRUE, FALSE);
CONSOLE_ClearScreen();
CONSOLE_Flush();
/* Global Initialization page */
Page = SetupStartPage(&Ir);
while (Page != REBOOT_PAGE && Page != RECOVERY_PAGE)
{
CONSOLE_ClearScreen();
CONSOLE_Flush();
// CONSOLE_SetUnderlinedTextXY(4, 3, " ReactOS " KERNEL_VERSION_STR " Setup ");
switch (Page)
{
/* Language page */
case LANGUAGE_PAGE:
Page = LanguagePage(&Ir);
break;
/* Welcome page */
case WELCOME_PAGE:
Page = WelcomePage(&Ir);
break;
/* License page */
case LICENSE_PAGE:
Page = LicensePage(&Ir);
break;
/* Install pages */
case INSTALL_INTRO_PAGE:
Page = InstallIntroPage(&Ir);
break;
#if 0
case SCSI_CONTROLLER_PAGE:
Page = ScsiControllerPage(&Ir);
break;
case OEM_DRIVER_PAGE:
Page = OemDriverPage(&Ir);
break;
#endif
case DEVICE_SETTINGS_PAGE:
Page = DeviceSettingsPage(&Ir);
break;
case COMPUTER_SETTINGS_PAGE:
Page = ComputerSettingsPage(&Ir);
break;
case DISPLAY_SETTINGS_PAGE:
Page = DisplaySettingsPage(&Ir);
break;
case KEYBOARD_SETTINGS_PAGE:
Page = KeyboardSettingsPage(&Ir);
break;
case LAYOUT_SETTINGS_PAGE:
Page = LayoutSettingsPage(&Ir);
break;
/* Partitioning pages */
case SELECT_PARTITION_PAGE:
Page = SelectPartitionPage(&Ir);
break;
case CREATE_PRIMARY_PARTITION_PAGE:
Page = CreatePrimaryPartitionPage(&Ir);
break;
case CREATE_EXTENDED_PARTITION_PAGE:
Page = CreateExtendedPartitionPage(&Ir);
break;
case CREATE_LOGICAL_PARTITION_PAGE:
Page = CreateLogicalPartitionPage(&Ir);
break;
case CONFIRM_DELETE_SYSTEM_PARTITION_PAGE:
Page = ConfirmDeleteSystemPartitionPage(&Ir);
break;
case DELETE_PARTITION_PAGE:
Page = DeletePartitionPage(&Ir);
break;
/* Filesystem partition operations pages */
case SELECT_FILE_SYSTEM_PAGE:
Page = SelectFileSystemPage(&Ir);
break;
case FORMAT_PARTITION_PAGE:
Page = FormatPartitionPage(&Ir);
break;
case CHECK_FILE_SYSTEM_PAGE:
Page = CheckFileSystemPage(&Ir);
break;
/* Installation pages */
case INSTALL_DIRECTORY_PAGE:
Page = InstallDirectoryPage(&Ir);
break;
case PREPARE_COPY_PAGE:
Page = PrepareCopyPage(&Ir);
break;
case FILE_COPY_PAGE:
Page = FileCopyPage(&Ir);
break;
case REGISTRY_PAGE:
Page = RegistryPage(&Ir);
break;
/* Bootloader installation pages */
case BOOT_LOADER_PAGE:
Page = BootLoaderPage(&Ir);
break;
case BOOT_LOADER_FLOPPY_PAGE:
Page = BootLoaderFloppyPage(&Ir);
break;
case BOOT_LOADER_INSTALLATION_PAGE:
Page = BootLoaderInstallationPage(&Ir);
break;
/* Repair pages */
case REPAIR_INTRO_PAGE:
Page = RepairIntroPage(&Ir);
break;
case UPGRADE_REPAIR_PAGE:
Page = UpgradeRepairPage(&Ir);
break;
case SUCCESS_PAGE:
Page = SuccessPage(&Ir);
break;
case FLUSH_PAGE:
Page = FlushPage(&Ir);
break;
case QUIT_PAGE:
Page = QuitPage(&Ir);
break;
/* Virtual pages */
case SETUP_INIT_PAGE:
case REBOOT_PAGE:
case RECOVERY_PAGE:
break;
default:
break;
}
}
/* Terminate the user-mode PnP manager */
TerminateUserModePnpManager();
/* Setup has finished */
FinishSetup(&USetupData);
if (Page == RECOVERY_PAGE)
RecoveryConsole();
FreeConsole();
/* Reboot */
RtlAdjustPrivilege(SE_SHUTDOWN_PRIVILEGE, TRUE, FALSE, &Old);
NtShutdownSystem(ShutdownReboot);
RtlAdjustPrivilege(SE_SHUTDOWN_PRIVILEGE, Old, FALSE, &Old);
return STATUS_SUCCESS;
}
VOID NTAPI
NtProcessStartup(PPEB Peb)
{
NTSTATUS Status;
LARGE_INTEGER Time;
RtlNormalizeProcessParams(Peb->ProcessParameters);
ProcessHeap = Peb->ProcessHeap;
NtQuerySystemTime(&Time);
Status = RunUSetup();
if (NT_SUCCESS(Status))
{
/*
* Avoid a bugcheck if RunUSetup() finishes too quickly by implementing
* a protective waiting.
* This wait is needed because, since we are started as SMSS.EXE,
* the NT kernel explicitly waits 5 seconds for the initial process
* SMSS.EXE to initialize (as a protective measure), and otherwise
* bugchecks with the code SESSION5_INITIALIZATION_FAILED.
*/
Time.QuadPart += 50000000;
NtDelayExecution(FALSE, &Time);
}
else
{
/* The installer failed to start: raise a hard error (crash the system/BSOD) */
Status = NtRaiseHardError(STATUS_SYSTEM_PROCESS_TERMINATED,
0, 0, NULL, 0, NULL);
}
NtTerminateProcess(NtCurrentProcess(), Status);
}
/* EOF */
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