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rufus/src/rufus.c

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/*
* Rufus: The Reliable USB Formatting Utility
* Copyright © 2011-2013 Pete Batard <pete@akeo.ie>
*
* 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 3 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, see <http://www.gnu.org/licenses/>.
*/
/* Memory leaks detection - define _CRTDBG_MAP_ALLOC as preprocessor macro */
#ifdef _CRTDBG_MAP_ALLOC
#include <stdlib.h>
#include <crtdbg.h>
#endif
#include <windows.h>
#include <windowsx.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <math.h>
#include <commctrl.h>
#include <setupapi.h>
#include <winioctl.h>
#include <process.h>
#include <dbt.h>
#include <io.h>
#include <getopt.h>
#include "msapi_utf8.h"
#include "resource.h"
#include "rufus.h"
#include "registry.h"
#include "localization.h"
/* Redefinitions for WDK and MinGW */
#ifndef PBM_SETSTATE
#define PBM_SETSTATE (WM_USER+16)
#endif
#ifndef PBST_NORMAL
#define PBST_NORMAL 1
#endif
#ifndef PBST_ERROR
#define PBST_ERROR 2
#endif
#ifndef PBST_PAUSED
#define PBST_PAUSED 3
#endif
#ifndef BUTTON_IMAGELIST_ALIGN_CENTER
#define BUTTON_IMAGELIST_ALIGN_CENTER 4
#endif
#ifndef BCM_SETIMAGELIST
#define BCM_SETIMAGELIST 0x1602
#endif
#ifndef DBT_CUSTOMEVENT
#define DBT_CUSTOMEVENT 0x8006
#endif
// MinGW fails to link those
typedef HIMAGELIST (WINAPI *ImageList_Create_t)(
int cx,
int cy,
UINT flags,
int cInitial,
int cGrow
);
ImageList_Create_t pImageList_Create = NULL;
typedef int (WINAPI *ImageList_ReplaceIcon_t)(
HIMAGELIST himl,
int i,
HICON hicon
);
ImageList_ReplaceIcon_t pImageList_ReplaceIcon = NULL;
struct {
HIMAGELIST himl;
RECT margin;
UINT uAlign;
} bi_iso = {0}, bi_up = {0}, bi_down = {0}; // BUTTON_IMAGELIST
const char* FileSystemLabel[FS_MAX] = { "FAT", "FAT32", "NTFS", "UDF", "exFAT" };
// Number of steps for each FS for FCC_STRUCTURE_PROGRESS
const int nb_steps[FS_MAX] = { 5, 5, 12, 1, 10 };
static const char* PartitionTypeLabel[2] = { "MBR", "GPT" };
static BOOL existing_key = FALSE; // For LGP set/restore
static BOOL size_check = TRUE;
static BOOL log_displayed = FALSE;
static BOOL iso_provided = FALSE;
extern BOOL force_large_fat32, enable_joliet, enable_rockridge;
static int selection_default;
static loc_cmd* selected_locale = NULL;
char ClusterSizeLabel[MAX_CLUSTER_SIZES][64];
char msgbox[1024], msgbox_title[32];
/*
* Globals
*/
HINSTANCE hMainInstance;
HWND hMainDialog;
char szFolderPath[MAX_PATH], app_dir[MAX_PATH];
char* iso_path = NULL;
float fScale = 1.0f;
int default_fs;
HWND hDeviceList, hPartitionScheme, hFileSystem, hClusterSize, hLabel, hBootType, hNBPasses, hLog = NULL;
HWND hISOProgressDlg = NULL, hLogDlg = NULL, hISOProgressBar, hISOFileName, hDiskID;
BOOL use_own_c32[NB_OLD_C32] = {FALSE, FALSE}, detect_fakes = TRUE, mbr_selected_by_user = FALSE;
BOOL iso_op_in_progress = FALSE, format_op_in_progress = FALSE;
BOOL enable_fixed_disks = FALSE, advanced_mode = TRUE;
int dialog_showing = 0;
uint16_t rufus_version[4];
RUFUS_UPDATE update = { {0,0,0,0}, {0,0}, NULL, NULL};
extern char szStatusMessage[256];
static HANDLE format_thid = NULL;
static HWND hProgress = NULL, hBoot = NULL, hSelectISO = NULL;
static HICON hIconDisc, hIconDown, hIconUp;
static StrArray DriveID, DriveLabel;
static char szTimer[12] = "00:00:00";
static unsigned int timer;
static int64_t last_iso_blocking_status;
/*
* The following is used to allocate slots within the progress bar
* 0 means unused (no operation or no progress allocated to it)
* +n means allocate exactly n bars (n percent of the progress bar)
* -n means allocate a weighted slot of n from all remaining
* bars. Eg if 80 slots remain and the sum of all negative entries
* is 10, -4 will allocate 4/10*80 = 32 bars (32%) for OP progress
*/
static int nb_slots[OP_MAX];
static float slot_end[OP_MAX+1]; // shifted +1 so that we can substract 1 to OP indexes
static float previous_end;
// TODO: Remember to update copyright year in both license.h and the RC when the year changes!
#define KB 1024LL
#define MB 1048576LL
#define GB 1073741824LL
#define TB 1099511627776LL
/*
* Fill in the cluster size names
*/
static void SetClusterSizeLabels(void)
{
unsigned int i, j, k;
safe_sprintf(ClusterSizeLabel[0], 64, lmprintf(MSG_029));
for (i=512, j=1, k=MSG_026; j<MAX_CLUSTER_SIZES; i<<=1, j++) {
if (i > 8192) {
i /= 1024;
k++;
}
safe_sprintf(ClusterSizeLabel[j], 64, "%d %s", i, lmprintf(k));
}
}
/*
* Set cluster size values according to http://support.microsoft.com/kb/140365
* this call will return FALSE if we can't find a supportable FS for the drive
*/
static BOOL DefineClusterSizes(void)
{
LONGLONG i;
int fs;
BOOL r = FALSE;
char tmp[64] = "", *entry;
default_fs = FS_UNKNOWN;
memset(&SelectedDrive.ClusterSize, 0, sizeof(SelectedDrive.ClusterSize));
if (SelectedDrive.DiskSize < 8*MB) {
uprintf("Device was eliminated because it is smaller than 8 MB\n");
goto out;
}
/*
* The following are MS's allowed cluster sizes for FAT16 and FAT32:
*
* FAT16
* 31M : 512 - 4096
* 63M : 1024 - 8192
* 127M : 2048 - 16k
* 255M : 4096 - 32k
* 511M : 8192 - 64k
* 1023M: 16k - 64k
* 2047M: 32k - 64k
* 4095M: 64k
* 4GB+ : N/A
*
* FAT32
* 31M : N/A
* 63M : N/A (NB unlike MS, we're allowing 512-512 here - UNTESTED)
* 127M : 512 - 1024
* 255M : 512 - 2048
* 511M : 512 - 4096
* 1023M: 512 - 8192
* 2047M: 512 - 16k
* 4095M: 1024 - 32k
* 7GB : 2048 - 64k
* 15GB : 4096 - 64k
* 31GB : 8192 - 64k This is as far as Microsoft's FormatEx goes...
* 63GB : 16k - 64k ...but we can go higher using fat32format from RidgeCrop.
* 2TB+ : N/A
*/
// FAT 16
if (SelectedDrive.DiskSize < 4*GB) {
SelectedDrive.ClusterSize[FS_FAT16].Allowed = 0x00001E00;
for (i=32; i<=4096; i<<=1) { // 8 MB -> 4 GB
if (SelectedDrive.DiskSize < i*MB) {
SelectedDrive.ClusterSize[FS_FAT16].Default = 16*(ULONG)i;
break;
}
SelectedDrive.ClusterSize[FS_FAT16].Allowed <<= 1;
}
SelectedDrive.ClusterSize[FS_FAT16].Allowed &= 0x0001FE00;
}
// FAT 32
// > 32GB FAT32 is not supported by MS and FormatEx but is achieved using fat32format
// See: http://www.ridgecrop.demon.co.uk/index.htm?fat32format.htm
// < 32 MB FAT32 is not allowed by FormatEx, so we don't bother
if ((SelectedDrive.DiskSize >= 32*MB) && (1.0f*SelectedDrive.DiskSize < 1.0f*MAX_FAT32_SIZE*TB)) {
SelectedDrive.ClusterSize[FS_FAT32].Allowed = 0x000001F8;
for (i=32; i<=(32*1024); i<<=1) { // 32 MB -> 32 GB
if (SelectedDrive.DiskSize < i*MB) {
SelectedDrive.ClusterSize[FS_FAT32].Default = 8*(ULONG)i;
break;
}
SelectedDrive.ClusterSize[FS_FAT32].Allowed <<= 1;
}
SelectedDrive.ClusterSize[FS_FAT32].Allowed &= 0x0001FE00;
// Default cluster sizes in the 256MB to 32 GB range do not follow the rule above
if ((SelectedDrive.DiskSize >= 256*MB) && (SelectedDrive.DiskSize < 32*GB)) {
for (i=8; i<=32; i<<=1) { // 256 MB -> 32 GB
if (SelectedDrive.DiskSize < i*GB) {
SelectedDrive.ClusterSize[FS_FAT32].Default = ((ULONG)i/2)*1024;
break;
}
}
}
// More adjustments for large drives
if (SelectedDrive.DiskSize >= 32*GB) {
SelectedDrive.ClusterSize[FS_FAT32].Allowed &= 0x0001C000;
SelectedDrive.ClusterSize[FS_FAT32].Default = 0x00008000;
}
}
if (SelectedDrive.DiskSize < 256*TB) {
// NTFS
SelectedDrive.ClusterSize[FS_NTFS].Allowed = 0x0001FE00;
for (i=16; i<=256; i<<=1) { // 7 MB -> 256 TB
if (SelectedDrive.DiskSize < i*TB) {
SelectedDrive.ClusterSize[FS_NTFS].Default = ((ULONG)i/4)*1024;
break;
}
}
// exFAT (requires KB955704 installed on XP => don't bother)
if (nWindowsVersion > WINDOWS_XP) {
SelectedDrive.ClusterSize[FS_EXFAT].Allowed = 0x03FFFE00;
if (SelectedDrive.DiskSize < 256*MB) // < 256 MB
SelectedDrive.ClusterSize[FS_EXFAT].Default = 4*1024;
else if (SelectedDrive.DiskSize < 32*GB) // < 32 GB
SelectedDrive.ClusterSize[FS_EXFAT].Default = 32*1024;
else
SelectedDrive.ClusterSize[FS_EXFAT].Default = 28*1024;
}
// UDF (only supported for Vista and later)
if (nWindowsVersion >= WINDOWS_VISTA) {
SelectedDrive.ClusterSize[FS_UDF].Allowed = 0x00000100;
SelectedDrive.ClusterSize[FS_UDF].Default = 1;
}
}
out:
// Only add the filesystems we can service
for (fs=0; fs<FS_MAX; fs++) {
if (SelectedDrive.ClusterSize[fs].Allowed != 0) {
tmp[0] = 0;
// Tell the user if we're going to use Large FAT32 or regular
if ((fs == FS_FAT32) && (SelectedDrive.DiskSize > LARGE_FAT32_SIZE))
safe_strcat(tmp, sizeof(tmp), "Large ");
safe_strcat(tmp, sizeof(tmp), FileSystemLabel[fs]);
if (default_fs == FS_UNKNOWN) {
entry = lmprintf(MSG_030, tmp);
default_fs = fs;
} else {
entry = tmp;
}
IGNORE_RETVAL(ComboBox_SetItemData(hFileSystem,
ComboBox_AddStringU(hFileSystem, entry), fs));
r = TRUE;
}
}
return r;
}
#undef KB
#undef MB
#undef GB
#undef TB
/*
* Populate the Allocation unit size field
*/
static BOOL SetClusterSizes(int FSType)
{
char* szClustSize;
int i, k, default_index = 0;
ULONG j;
IGNORE_RETVAL(ComboBox_ResetContent(hClusterSize));
if ((FSType < 0) || (FSType >= FS_MAX)) {
return FALSE;
}
if ( (SelectedDrive.ClusterSize[FSType].Allowed == 0)
|| (SelectedDrive.ClusterSize[FSType].Default == 0) ) {
uprintf("The drive is incompatible with FS type #%d\n", FSType);
return FALSE;
}
for(i=0,j=0x100,k=0;j<0x10000000;i++,j<<=1) {
if (j & SelectedDrive.ClusterSize[FSType].Allowed) {
if (j == SelectedDrive.ClusterSize[FSType].Default) {
szClustSize = lmprintf(MSG_030, ClusterSizeLabel[i]);
default_index = k;
} else {
szClustSize = ClusterSizeLabel[i];
}
IGNORE_RETVAL(ComboBox_SetItemData(hClusterSize, ComboBox_AddStringU(hClusterSize, szClustSize), j));
k++;
}
}
IGNORE_RETVAL(ComboBox_SetCurSel(hClusterSize, default_index));
return TRUE;
}
/*
* Fill the drive properties (size, FS, etc)
*/
static BOOL GetDriveInfo(int ComboIndex)
{
DWORD i;
char fs_type[32];
memset(&SelectedDrive, 0, sizeof(SelectedDrive));
SelectedDrive.DeviceNumber = (DWORD)ComboBox_GetItemData(hDeviceList, ComboIndex);
if (!GetDrivePartitionData(SelectedDrive.DeviceNumber, fs_type, sizeof(fs_type)))
return FALSE;
if (!DefineClusterSizes()) {
uprintf("No file system is selectable for this drive\n");
return FALSE;
}
// re-select existing FS if it's one we know
SelectedDrive.FSType = FS_UNKNOWN;
if (safe_strlen(fs_type) != 0) {
for (SelectedDrive.FSType=FS_MAX-1; SelectedDrive.FSType>=0; SelectedDrive.FSType--) {
if (safe_strcmp(fs_type, FileSystemLabel[SelectedDrive.FSType]) == 0) {
break;
}
}
} else {
SelectedDrive.FSType = FS_UNKNOWN;
}
for (i=0; i<ComboBox_GetCount(hFileSystem); i++) {
if (ComboBox_GetItemData(hFileSystem, i) == SelectedDrive.FSType) {
IGNORE_RETVAL(ComboBox_SetCurSel(hFileSystem, i));
break;
}
}
if (i == ComboBox_GetCount(hFileSystem)) {
// failed to reselect => pick default
for (i=0; i<ComboBox_GetCount(hFileSystem); i++) {
if (ComboBox_GetItemData(hFileSystem, i) == default_fs) {
IGNORE_RETVAL(ComboBox_SetCurSel(hFileSystem, i));
break;
}
}
}
// At least one filesystem is go => enable formatting
EnableWindow(GetDlgItem(hMainDialog, IDC_START), TRUE);
return SetClusterSizes((int)ComboBox_GetItemData(hFileSystem, ComboBox_GetCurSel(hFileSystem)));
}
static void SetFSFromISO(void)
{
int i, fs, selected_fs = FS_UNKNOWN;
uint32_t fs_mask = 0;
int bt = GETBIOSTYPE((int)ComboBox_GetItemData(hPartitionScheme, ComboBox_GetCurSel(hPartitionScheme)));
if (iso_path == NULL)
return;
// Create a mask of all the FS's available
for (i=0; i<ComboBox_GetCount(hFileSystem); i++) {
fs = (int)ComboBox_GetItemData(hFileSystem, i);
fs_mask |= 1<<fs;
}
// Syslinux and EFI have precedence over bootmgr (unless the user selected BIOS as target type)
if ((iso_report.has_isolinux) || ( (IS_EFI(iso_report)) && (bt == BT_UEFI))) {
if (fs_mask & (1<<FS_FAT32)) {
selected_fs = FS_FAT32;
} else if (fs_mask & (1<<FS_FAT16)) {
selected_fs = FS_FAT16;
}
} else if ((iso_report.has_bootmgr) || (IS_WINPE(iso_report.winpe))) {
if (fs_mask & (1<<FS_NTFS)) {
selected_fs = FS_NTFS;
}
}
// Try to select the FS
for (i=0; i<ComboBox_GetCount(hFileSystem); i++) {
fs = (int)ComboBox_GetItemData(hFileSystem, i);
if (fs == selected_fs)
IGNORE_RETVAL(ComboBox_SetCurSel(hFileSystem, i));
}
SendMessage(hMainDialog, WM_COMMAND, (CBN_SELCHANGE<<16) | IDC_FILESYSTEM,
ComboBox_GetCurSel(hFileSystem));
}
static void SetMBRProps(void)
{
int fs = (int)ComboBox_GetItemData(hFileSystem, ComboBox_GetCurSel(hFileSystem));
int dt = (int)ComboBox_GetItemData(hBootType, ComboBox_GetCurSel(hBootType));
BOOL needs_masquerading = (IS_WINPE(iso_report.winpe) && (!iso_report.uses_minint));
if ((!mbr_selected_by_user) && ((iso_path == NULL) || (dt != DT_ISO) || (fs != FS_NTFS))) {
CheckDlgButton(hMainDialog, IDC_RUFUS_MBR, BST_UNCHECKED);
IGNORE_RETVAL(ComboBox_SetCurSel(hDiskID, 0));
return;
}
CheckDlgButton(hMainDialog, IDC_RUFUS_MBR,
(needs_masquerading || iso_report.has_bootmgr || mbr_selected_by_user)?BST_CHECKED:BST_UNCHECKED);
IGNORE_RETVAL(ComboBox_SetCurSel(hDiskID, needs_masquerading?1:0));
}
static void EnableAdvancedBootOptions(BOOL enable)
{
BOOL actual_enable;
int bt = GETBIOSTYPE((int)ComboBox_GetItemData(hPartitionScheme, ComboBox_GetCurSel(hPartitionScheme)));
actual_enable = (bt==BT_UEFI)?FALSE:enable;
EnableWindow(GetDlgItem(hMainDialog, IDC_RUFUS_MBR), actual_enable);
EnableWindow(GetDlgItem(hMainDialog, IDC_EXTRA_PARTITION), actual_enable);
EnableWindow(hDiskID, actual_enable);
}
static void EnableBootOptions(BOOL enable)
{
BOOL actual_enable;
int fs = (int)ComboBox_GetItemData(hFileSystem, ComboBox_GetCurSel(hFileSystem));
actual_enable = ((fs != FS_FAT16) && (fs != FS_FAT32) && (fs != FS_NTFS))?FALSE:enable;
EnableWindow(hBoot, actual_enable);
EnableWindow(hBootType, actual_enable);
EnableWindow(hSelectISO, actual_enable);
EnableAdvancedBootOptions(actual_enable);
}
static void SetPartitionSchemeTooltip(void)
{
int bt, pt;
bt = GETBIOSTYPE((int)ComboBox_GetItemData(hPartitionScheme, ComboBox_GetCurSel(hPartitionScheme)));
pt = GETPARTTYPE((int)ComboBox_GetItemData(hPartitionScheme, ComboBox_GetCurSel(hPartitionScheme)));
if (bt == BT_BIOS) {
CreateTooltip(hPartitionScheme, lmprintf(MSG_150), 15000);
} else {
if (pt == PARTITION_STYLE_MBR) {
CreateTooltip(hPartitionScheme, lmprintf(MSG_151), 15000);
} else {
CreateTooltip(hPartitionScheme, lmprintf(MSG_152), 15000);
}
}
}
/*
* Populate the UI properties
*/
static BOOL PopulateProperties(int ComboIndex)
{
double HumanReadableSize;
char no_label[] = STR_NO_LABEL;
int i, j, pt, bt;
IGNORE_RETVAL(ComboBox_ResetContent(hPartitionScheme));
IGNORE_RETVAL(ComboBox_ResetContent(hFileSystem));
IGNORE_RETVAL(ComboBox_ResetContent(hClusterSize));
EnableWindow(GetDlgItem(hMainDialog, IDC_START), FALSE);
SetWindowTextA(hLabel, "");
memset(&SelectedDrive, 0, sizeof(SelectedDrive));
if (ComboIndex < 0)
return TRUE;
if (!GetDriveInfo(ComboIndex)) // This also populates FS
return FALSE;
SetFSFromISO();
EnableBootOptions(TRUE);
HumanReadableSize = (double)SelectedDrive.DiskSize;
for (i=1; i<MAX_SIZE_SUFFIXES; i++) {
HumanReadableSize /= 1024.0;
if (HumanReadableSize < 512.0) {
for (j=0; j<3; j++) {
// Populate MBR/BIOS, MBR/UEFI and GPT/UEFI targets, with an exception
// for XP, as it doesn't support GPT at all
if ((j == 2) && (nWindowsVersion <= WINDOWS_XP))
continue;
bt = (j==0)?BT_BIOS:BT_UEFI;
pt = (j==2)?PARTITION_STYLE_GPT:PARTITION_STYLE_MBR;
IGNORE_RETVAL(ComboBox_SetItemData(hPartitionScheme, ComboBox_AddStringU(hPartitionScheme,
lmprintf(MSG_031+j, PartitionTypeLabel[pt])), (bt<<16)|pt));
}
break;
}
}
if (i >= MAX_SIZE_SUFFIXES)
uprintf("Could not populate partition scheme data\n");
if (SelectedDrive.PartitionType == PARTITION_STYLE_GPT) {
j = 2;
} else if (SelectedDrive.has_protective_mbr || SelectedDrive.has_mbr_uefi_marker) {
j = 1;
} else {
j = 0;
}
IGNORE_RETVAL(ComboBox_SetCurSel(hPartitionScheme, j));
SetPartitionSchemeTooltip();
CreateTooltip(hDeviceList, DriveID.Table[ComboIndex], -1);
// Set a proposed label according to the size (eg: "256MB", "8GB")
if (HumanReadableSize < 1.0) {
HumanReadableSize *= 1024.0;
i--;
}
// If we're beneath the tolerance, round proposed label to an integer, if not, show two decimal point
if (fabs(HumanReadableSize / ceil(HumanReadableSize) - 1.0) < PROPOSEDLABEL_TOLERANCE) {
safe_sprintf(SelectedDrive.proposed_label, sizeof(SelectedDrive.proposed_label),
"%0.0f%s", ceil(HumanReadableSize), lmprintf(MSG_020+i));
} else {
safe_sprintf(SelectedDrive.proposed_label, sizeof(SelectedDrive.proposed_label),
"%0.2f%s", HumanReadableSize, lmprintf(MSG_020+i));
}
// If no existing label is available and no ISO is selected, propose one according to the size (eg: "256MB", "8GB")
if ((iso_path == NULL) || (iso_report.label[0] == 0)) {
if (safe_strcmp(no_label, DriveLabel.Table[ComboIndex]) == 0) {
SetWindowTextU(hLabel, SelectedDrive.proposed_label);
} else {
SetWindowTextU(hLabel, DriveLabel.Table[ComboIndex]);
}
} else {
SetWindowTextU(hLabel, iso_report.label);
}
return TRUE;
}
/*
* Refresh the list of USB devices
*/
static BOOL GetUSBDevices(DWORD devnum)
{
BOOL r, found = FALSE;
HDEVINFO dev_info = NULL;
SP_DEVINFO_DATA dev_info_data;
SP_DEVICE_INTERFACE_DATA devint_data;
PSP_DEVICE_INTERFACE_DETAIL_DATA_A devint_detail_data;
STORAGE_DEVICE_NUMBER_REDEF device_number;
DWORD size, i, j, datatype;
HANDLE hDrive;
LONG maxwidth = 0;
RECT rect;
char drive_letter;
char *label, *entry, buffer[MAX_PATH];
const char* usbstor_name = "USBSTOR";
GUID _GUID_DEVINTERFACE_DISK = // only known to some...
{ 0x53f56307L, 0xb6bf, 0x11d0, {0x94, 0xf2, 0x00, 0xa0, 0xc9, 0x1e, 0xfb, 0x8b} };
IGNORE_RETVAL(ComboBox_ResetContent(hDeviceList));
StrArrayClear(&DriveID);
StrArrayClear(&DriveLabel);
GetClientRect(hDeviceList, &rect);
dev_info = SetupDiGetClassDevsA(&_GUID_DEVINTERFACE_DISK, NULL, NULL, DIGCF_PRESENT|DIGCF_DEVICEINTERFACE);
if (dev_info == INVALID_HANDLE_VALUE) {
uprintf("SetupDiGetClassDevs (Interface) failed: %s\n", WindowsErrorString());
return FALSE;
}
dev_info_data.cbSize = sizeof(dev_info_data);
for (i=0; SetupDiEnumDeviceInfo(dev_info, i, &dev_info_data); i++) {
memset(buffer, 0, sizeof(buffer));
if (!SetupDiGetDeviceRegistryPropertyA(dev_info, &dev_info_data, SPDRP_ENUMERATOR_NAME,
&datatype, (LPBYTE)buffer, sizeof(buffer), &size)) {
uprintf("SetupDiGetDeviceRegistryProperty (Enumerator Name) failed: %s\n", WindowsErrorString());
continue;
}
if (safe_strcmp(buffer, usbstor_name) != 0)
continue;
memset(buffer, 0, sizeof(buffer));
if (!SetupDiGetDeviceRegistryPropertyA(dev_info, &dev_info_data, SPDRP_FRIENDLYNAME,
&datatype, (LPBYTE)buffer, sizeof(buffer), &size)) {
uprintf("SetupDiGetDeviceRegistryProperty (Friendly Name) failed: %s\n", WindowsErrorString());
// We can afford a failure on this call - just replace the name
safe_strcpy(buffer, sizeof(buffer), lmprintf(MSG_045));
}
uprintf("Found device '%s'\n", buffer);
devint_data.cbSize = sizeof(devint_data);
hDrive = INVALID_HANDLE_VALUE;
devint_detail_data = NULL;
for (j=0; ;j++) {
safe_closehandle(hDrive);
safe_free(devint_detail_data);
if (!SetupDiEnumDeviceInterfaces(dev_info, &dev_info_data, &_GUID_DEVINTERFACE_DISK, j, &devint_data)) {
if(GetLastError() != ERROR_NO_MORE_ITEMS) {
uprintf("SetupDiEnumDeviceInterfaces failed: %s\n", WindowsErrorString());
} else {
uprintf("A device was eliminated because it didn't report itself as a non fixed USB disk\n");
}
break;
}
if (!SetupDiGetDeviceInterfaceDetailA(dev_info, &devint_data, NULL, 0, &size, NULL)) {
if(GetLastError() == ERROR_INSUFFICIENT_BUFFER) {
devint_detail_data = (PSP_DEVICE_INTERFACE_DETAIL_DATA_A)calloc(1, size);
if (devint_detail_data == NULL) {
uprintf("Unable to allocate data for SP_DEVICE_INTERFACE_DETAIL_DATA\n");
return FALSE;
}
devint_detail_data->cbSize = sizeof(SP_DEVICE_INTERFACE_DETAIL_DATA_A);
} else {
uprintf("SetupDiGetDeviceInterfaceDetail (dummy) failed: %s\n", WindowsErrorString());
continue;
}
}
if (devint_detail_data == NULL) {
uprintf("SetupDiGetDeviceInterfaceDetail (dummy) - no data was allocated\n");
continue;
}
if(!SetupDiGetDeviceInterfaceDetailA(dev_info, &devint_data, devint_detail_data, size, &size, NULL)) {
uprintf("SetupDiGetDeviceInterfaceDetail (actual) failed: %s\n", WindowsErrorString());
continue;
}
hDrive = CreateFileA(devint_detail_data->DevicePath, GENERIC_READ|GENERIC_WRITE, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0, NULL);
if(hDrive == INVALID_HANDLE_VALUE) {
uprintf("Could not open '%s': %s\n", devint_detail_data->DevicePath, WindowsErrorString());
continue;
}
memset(&device_number, 0, sizeof(device_number));
r = DeviceIoControl(hDrive, IOCTL_STORAGE_GET_DEVICE_NUMBER,
NULL, 0, &device_number, sizeof(device_number), &size, NULL );
if (!r || size <= 0) {
uprintf("IOCTL_STORAGE_GET_DEVICE_NUMBER (GetUSBDevices) failed: %s\n", WindowsErrorString());
continue;
}
if (device_number.DeviceNumber >= MAX_DRIVES) {
uprintf("Device Number %d is too big - ignoring device\n");
continue;
}
if (GetDriveLabel(device_number.DeviceNumber + DRIVE_INDEX_MIN, &drive_letter, &label)) {
// Must ensure that the combo box is UNSORTED for indexes to be the same
StrArrayAdd(&DriveID, buffer);
StrArrayAdd(&DriveLabel, label);
// Drive letter ' ' is returned for drives that don't have a volume assigned yet
if (drive_letter == ' ') {
entry = lmprintf(MSG_046, label, device_number.DeviceNumber);
} else {
if (drive_letter == app_dir[0]) {
uprintf("Removing %c: from the list: This is the disk from which " APPLICATION_NAME " is running!\n", drive_letter);
safe_closehandle(hDrive);
safe_free(devint_detail_data);
break;
}
entry = lmprintf(MSG_047, label, drive_letter);
}
IGNORE_RETVAL(ComboBox_SetItemData(hDeviceList, ComboBox_AddStringU(hDeviceList, entry),
device_number.DeviceNumber + DRIVE_INDEX_MIN));
maxwidth = max(maxwidth, GetEntryWidth(hDeviceList, entry));
safe_closehandle(hDrive);
safe_free(devint_detail_data);
break;
}
}
}
SetupDiDestroyDeviceInfoList(dev_info);
// Adjust the Dropdown width to the maximum text size
SendMessage(hDeviceList, CB_SETDROPPEDWIDTH, (WPARAM)maxwidth, 0);
if (devnum >= DRIVE_INDEX_MIN) {
for (i=0; i<ComboBox_GetCount(hDeviceList); i++) {
if ((DWORD)ComboBox_GetItemData(hDeviceList, i) == devnum) {
found = TRUE;
break;
}
}
}
if (!found)
i = 0;
IGNORE_RETVAL(ComboBox_SetCurSel(hDeviceList, i));
SendMessage(hMainDialog, WM_COMMAND, (CBN_SELCHANGE<<16) | IDC_DEVICE, 0);
SendMessage(hMainDialog, WM_COMMAND, (CBN_SELCHANGE<<16) | IDC_FILESYSTEM,
ComboBox_GetCurSel(hFileSystem));
return TRUE;
}
/*
* Set up progress bar real estate allocation
*/
static void InitProgress(void)
{
int i, dt, fs;
float last_end = 0.0f, slots_discrete = 0.0f, slots_analog = 0.0f;
fs = (int)ComboBox_GetItemData(hFileSystem, ComboBox_GetCurSel(hFileSystem));
dt = (int)ComboBox_GetItemData(hBootType, ComboBox_GetCurSel(hBootType));
memset(&nb_slots, 0, sizeof(nb_slots));
memset(&slot_end, 0, sizeof(slot_end));
previous_end = 0.0f;
memset(nb_slots, 0, sizeof(nb_slots));
memset(slot_end, 0, sizeof(slot_end));
previous_end = 0.0f;
nb_slots[OP_ANALYZE_MBR] = 1;
nb_slots[OP_ZERO_MBR] = 1;
if (IsChecked(IDC_BADBLOCKS)) {
nb_slots[OP_BADBLOCKS] = -1;
}
if (IsChecked(IDC_BOOT)) {
// 1 extra slot for PBR writing
switch (dt) {
case DT_WINME:
nb_slots[OP_DOS] = 3+1;
break;
case DT_FREEDOS:
nb_slots[OP_DOS] = 5+1;
break;
case DT_ISO:
nb_slots[OP_DOS] = -1;
break;
default:
nb_slots[OP_DOS] = 2+1;
break;
}
}
nb_slots[OP_PARTITION] = 1;
nb_slots[OP_FIX_MBR] = 1;
nb_slots[OP_CREATE_FS] =
nb_steps[ComboBox_GetItemData(hFileSystem, ComboBox_GetCurSel(hFileSystem))];
if ( (!IsChecked(IDC_QUICKFORMAT))
|| ((fs == FS_FAT32) && (SelectedDrive.DiskSize >= LARGE_FAT32_SIZE)) ) {
nb_slots[OP_FORMAT] = -1;
}
nb_slots[OP_FINALIZE] = ((dt == DT_ISO) && (fs == FS_NTFS))?3:2;
for (i=0; i<OP_MAX; i++) {
if (nb_slots[i] > 0) {
slots_discrete += nb_slots[i]*1.0f;
}
if (nb_slots[i] < 0) {
slots_analog += nb_slots[i]*1.0f;
}
}
for (i=0; i<OP_MAX; i++) {
if (nb_slots[i] == 0) {
slot_end[i+1] = last_end;
} else if (nb_slots[i] > 0) {
slot_end[i+1] = last_end + (1.0f * nb_slots[i]);
} else if (nb_slots[i] < 0) {
slot_end[i+1] = last_end + (( (100.0f-slots_discrete) * nb_slots[i]) / slots_analog);
}
last_end = slot_end[i+1];
}
/* Is there's no analog, adjust our discrete ends to fill the whole bar */
if (slots_analog == 0.0f) {
for (i=0; i<OP_MAX; i++) {
slot_end[i+1] *= 100.0f / slots_discrete;
}
}
}
/*
* Position the progress bar within each operation range
*/
void UpdateProgress(int op, float percent)
{
int pos;
if ((op < 0) || (op > OP_MAX)) {
duprintf("UpdateProgress: invalid op %d\n", op);
return;
}
if (percent > 100.1f) {
duprintf("UpdateProgress(%d): invalid percentage %0.2f\n", op, percent);
return;
}
if ((percent < 0.0f) && (nb_slots[op] <= 0)) {
duprintf("UpdateProgress(%d): error negative percentage sent for negative slot value\n", op);
return;
}
if (nb_slots[op] == 0)
return;
if (previous_end < slot_end[op]) {
previous_end = slot_end[op];
}
if (percent < 0.0f) {
// Negative means advance one slot (1.0%) - requires a positive slot allocation
previous_end += (slot_end[op+1] - slot_end[op]) / (1.0f * nb_slots[op]);
pos = (int)(previous_end / 100.0f * MAX_PROGRESS);
} else {
pos = (int)((previous_end + ((slot_end[op+1] - previous_end) * (percent / 100.0f))) / 100.0f * MAX_PROGRESS);
}
if (pos > MAX_PROGRESS) {
duprintf("UpdateProgress(%d): rounding error - pos %d is greater than %d\n", op, pos, MAX_PROGRESS);
pos = MAX_PROGRESS;
}
SendMessage(hProgress, PBM_SETPOS, (WPARAM)pos, 0);
SetTaskbarProgressValue(pos, MAX_PROGRESS);
}
/*
* Toggle controls according to operation
*/
static void EnableControls(BOOL bEnable)
{
EnableWindow(GetDlgItem(hMainDialog, IDC_DEVICE), bEnable);
EnableWindow(GetDlgItem(hMainDialog, IDC_PARTITION_TYPE), bEnable);
EnableWindow(GetDlgItem(hMainDialog, IDC_FILESYSTEM), bEnable);
EnableWindow(GetDlgItem(hMainDialog, IDC_CLUSTERSIZE), bEnable);
EnableWindow(GetDlgItem(hMainDialog, IDC_LABEL), bEnable);
EnableWindow(GetDlgItem(hMainDialog, IDC_QUICKFORMAT), bEnable);
EnableBootOptions(bEnable);
EnableWindow(GetDlgItem(hMainDialog, IDC_BADBLOCKS), bEnable);
EnableWindow(GetDlgItem(hMainDialog, IDC_ABOUT), bEnable);
EnableWindow(GetDlgItem(hMainDialog, IDC_START), bEnable);
EnableWindow(hSelectISO, bEnable);
EnableWindow(hNBPasses, bEnable);
EnableWindow(GetDlgItem(hMainDialog, IDC_SET_ICON), bEnable);
EnableWindow(GetDlgItem(hMainDialog, IDC_ADVANCED), bEnable);
EnableWindow(GetDlgItem(hMainDialog, IDC_ENABLE_FIXED_DISKS), bEnable);
SetDlgItemTextU(hMainDialog, IDCANCEL, lmprintf(bEnable?MSG_006:MSG_007));
}
/* Callback for the log window */
BOOL CALLBACK LogProc(HWND hDlg, UINT message, WPARAM wParam, LPARAM lParam)
{
HDC hdc;
HFONT hf;
long lfHeight;
DWORD log_size;
char *log_buffer = NULL, *filepath;
switch (message) {
case WM_INITDIALOG:
apply_localization(IDD_LOG, hDlg);
hLog = GetDlgItem(hDlg, IDC_LOG_EDIT);
// Increase the size of our log textbox to MAX_LOG_SIZE (unsigned word)
PostMessage(hLog, EM_LIMITTEXT, MAX_LOG_SIZE , 0);
// Set the font to Unicode so that we can display anything
hdc = GetDC(NULL);
lfHeight = -MulDiv(8, GetDeviceCaps(hdc, LOGPIXELSY), 72);
ReleaseDC(NULL, hdc);
hf = CreateFontA(lfHeight, 0, 0, 0, FW_NORMAL, FALSE, FALSE, FALSE,
DEFAULT_CHARSET, 0, 0, PROOF_QUALITY, 0, "Arial Unicode MS");
SendDlgItemMessageA(hDlg, IDC_LOG_EDIT, WM_SETFONT, (WPARAM)hf, TRUE);
return TRUE;
case WM_COMMAND:
switch (LOWORD(wParam)) {
case IDCANCEL:
ShowWindow(hDlg, SW_HIDE);
log_displayed = FALSE;
return TRUE;
case IDC_LOG_CLEAR:
SetWindowTextA(hLog, "");
return TRUE;
case IDC_LOG_SAVE:
log_size = GetWindowTextLengthU(hLog);
if (log_size <= 0)
break;
log_buffer = (char*)malloc(log_size);
if (log_buffer != NULL) {
log_size = GetDlgItemTextU(hDlg, IDC_LOG_EDIT, log_buffer, log_size);
if (log_size != 0) {
log_size--; // remove NUL terminator
filepath = FileDialog(TRUE, app_dir, "rufus.log", "log", lmprintf(MSG_108));
if (filepath != NULL) {
FileIO(TRUE, filepath, &log_buffer, &log_size);
}
safe_free(filepath);
}
safe_free(log_buffer);
}
break;
}
break;
case WM_CLOSE:
ShowWindow(hDlg, SW_HIDE);
reset_localization(IDD_LOG);
log_displayed = FALSE;
return TRUE;
}
return FALSE;
}
/*
* Timer in the right part of the status area
*/
static void CALLBACK ClockTimer(HWND hWnd, UINT uMsg, UINT_PTR idEvent, DWORD dwTime)
{
timer++;
safe_sprintf(szTimer, sizeof(szTimer), "%02d:%02d:%02d",
timer/3600, (timer%3600)/60, timer%60);
SendMessageA(GetDlgItem(hWnd, IDC_STATUS), SB_SETTEXTA, SBT_OWNERDRAW | 1, (LPARAM)szTimer);
}
/*
* Device Refresh Timer
*/
static void CALLBACK RefreshTimer(HWND hWnd, UINT uMsg, UINT_PTR idEvent, DWORD dwTime)
{
SendMessage(hWnd, WM_DEVICECHANGE, DBT_CUSTOMEVENT, 0);
}
/*
* Detect and notify about a blocking operation during ISO extraction cancellation
*/
static void CALLBACK BlockingTimer(HWND hWnd, UINT uMsg, UINT_PTR idEvent, DWORD dwTime)
{
static BOOL user_notified = FALSE;
if (iso_blocking_status < 0) {
KillTimer(hMainDialog, TID_BLOCKING_TIMER);
user_notified = FALSE;
uprintf("Killed blocking I/O timer\n");
} else if(!user_notified) {
if (last_iso_blocking_status == iso_blocking_status) {
// A write or close operation hasn't made any progress since our last check
user_notified = TRUE;
uprintf("Blocking I/O operation detected\n");
MessageBoxU(hMainDialog, lmprintf(MSG_080), lmprintf(MSG_048), MB_OK|MB_ICONINFORMATION);
} else {
last_iso_blocking_status = iso_blocking_status;
}
}
}
/* Callback for the modeless ISO extraction progress, and other progress dialogs */
BOOL CALLBACK ISOProc(HWND hDlg, UINT message, WPARAM wParam, LPARAM lParam)
{
switch (message) {
case WM_INITDIALOG:
apply_localization(IDD_ISO_EXTRACT, hDlg);
hISOProgressBar = GetDlgItem(hDlg, IDC_PROGRESS);
hISOFileName = GetDlgItem(hDlg, IDC_ISO_FILENAME);
// Use maximum granularity for the progress bar
SendMessage(hISOProgressBar, PBM_SETRANGE, 0, (MAX_PROGRESS<<16) & 0xFFFF0000);
return TRUE;
case UM_ISO_INIT:
iso_op_in_progress = TRUE;
CenterDialog(hDlg);
ShowWindow(hDlg, SW_SHOW);
UpdateWindow(hDlg);
return TRUE;
case UM_ISO_EXIT:
// Just hide and recenter the dialog
ShowWindow(hDlg, SW_HIDE);
iso_op_in_progress = FALSE;
return TRUE;
case WM_COMMAND:
switch (LOWORD(wParam)) {
case IDC_ISO_ABORT:
FormatStatus = ERROR_SEVERITY_ERROR|FAC(FACILITY_STORAGE)|ERROR_CANCELLED;
PrintStatus(0, FALSE, lmprintf(MSG_201));
uprintf("Cancelling (from ISO proc.)\n");
EnableWindow(GetDlgItem(hISOProgressDlg, IDC_ISO_ABORT), FALSE);
if (format_thid != NULL)
EnableWindow(GetDlgItem(hMainDialog, IDCANCEL), FALSE);
// Start a timer to detect blocking operations during ISO file extraction
if (iso_blocking_status >= 0) {
last_iso_blocking_status = iso_blocking_status;
SetTimer(hMainDialog, TID_BLOCKING_TIMER, 5000, BlockingTimer);
}
return TRUE;
}
case WM_CLOSE: // prevent closure using Alt-F4
return TRUE;
}
return FALSE;
}
// The scanning process can be blocking for message processing => use a thread
DWORD WINAPI ISOScanThread(LPVOID param)
{
int i;
FILE* fd;
const char* old_c32_name[NB_OLD_C32] = OLD_C32_NAMES;
const char* new_c32_url[NB_OLD_C32] = NEW_C32_URL;
if (iso_path == NULL)
goto out;
PrintStatus(0, TRUE, lmprintf(MSG_202));
if (!ExtractISO(iso_path, "", TRUE)) {
SendMessage(hISOProgressDlg, UM_ISO_EXIT, 0, 0);
PrintStatus(0, TRUE, lmprintf(MSG_203));
safe_free(iso_path);
goto out;
}
uprintf("ISO label: '%s'\r\n Size: %lld bytes\r\n Has a >64 chars filename: %s\r\n Has a >4GB file: %s\r\n"
" Uses EFI: %s%s\r\n Uses Bootmgr: %s\r\n Uses WinPE: %s%s\r\n Uses isolinux: %s %s\n",
iso_report.label, iso_report.projected_size, iso_report.has_long_filename?"Yes":"No",
iso_report.has_4GB_file?"Yes":"No", (iso_report.has_efi || iso_report.has_win7_efi)?"Yes":"No",
(iso_report.has_win7_efi && (!iso_report.has_efi))?" (win7_x64)":"", iso_report.has_bootmgr?"Yes":"No",
IS_WINPE(iso_report.winpe)?"Yes":"No", (iso_report.uses_minint)?" (with /minint)":"", iso_report.has_isolinux?"Yes":"No",
iso_report.has_syslinux_v5?"(v5.0 or later)":iso_report.has_isolinux?"(v4.x or earlier)":"");
if (iso_report.has_isolinux && !iso_report.has_syslinux_v5) {
for (i=0; i<NB_OLD_C32; i++) {
uprintf(" With an old %s: %s\n", old_c32_name[i], iso_report.has_old_c32[i]?"Yes":"No");
}
}
if ((!iso_report.has_bootmgr) && (!iso_report.has_isolinux) && (!IS_WINPE(iso_report.winpe)) && (!iso_report.has_efi)) {
MessageBoxU(hMainDialog, lmprintf(MSG_082), lmprintf(MSG_081), MB_OK|MB_ICONINFORMATION);
safe_free(iso_path);
SetMBRProps();
} else if (!iso_report.has_syslinux_v5) { // This check is for Syslinux v4.x or earlier
_chdirU(app_dir);
for (i=0; i<NB_OLD_C32; i++) {
if (iso_report.has_old_c32[i]) {
fd = fopen(old_c32_name[i], "rb");
if (fd != NULL) {
// If a file already exists in the current directory, use that one
uprintf("Will replace obsolete '%s' from ISO with the one found in current directory\n", old_c32_name[i]);
fclose(fd);
use_own_c32[i] = TRUE;
} else {
PrintStatus(0, FALSE, lmprintf(MSG_204, old_c32_name[i]));
if (MessageBoxU(hMainDialog, lmprintf(MSG_084, old_c32_name[i], old_c32_name[i]),
lmprintf(MSG_083, old_c32_name[i]), MB_YESNO|MB_ICONWARNING) == IDYES) {
SetWindowTextU(hISOProgressDlg, lmprintf(MSG_085, old_c32_name[i]));
SetWindowTextU(hISOFileName, new_c32_url[i]);
if (DownloadFile(new_c32_url[i], old_c32_name[i], hISOProgressDlg))
use_own_c32[i] = TRUE;
}
}
}
}
// Enable DOS, set DOS Type to ISO (last item) and set FS accordingly
CheckDlgButton(hMainDialog, IDC_BOOT, BST_CHECKED);
SetFSFromISO();
SetMBRProps();
for (i=(int)safe_strlen(iso_path); (i>0)&&(iso_path[i]!='\\'); i--);
PrintStatus(0, TRUE, lmprintf(MSG_205, &iso_path[i+1]));
// Some Linux distros, such as Arch Linux, require the USB drive to have
// a specific label => copy the one we got from the ISO image
if (iso_report.label[0] != 0) {
SetWindowTextU(hLabel, iso_report.label);
}
// Lose the focus on the select ISO (but place it on Close)
SendMessage(hMainDialog, WM_NEXTDLGCTL, (WPARAM)FALSE, 0);
// Lose the focus from Close and set it back to Start
SendMessage(hMainDialog, WM_NEXTDLGCTL, (WPARAM)GetDlgItem(hMainDialog, IDC_START), TRUE);
}
out:
SendMessage(hISOProgressDlg, UM_ISO_EXIT, 0, 0);
ExitThread(0);
}
// Move a control along the Y axis according to the advanced mode setting
void MoveCtrlY(HWND hDlg, int nID, float vertical_shift) {
ResizeMoveCtrl(hDlg, GetDlgItem(hDlg, nID), 0,
(int)(advanced_mode?vertical_shift:-vertical_shift), 0, 0);
}
void SetPassesTooltip(void)
{
const unsigned char pattern[] = BADBLOCK_PATTERNS;
CreateTooltip(hNBPasses, lmprintf(MSG_153 + ComboBox_GetCurSel(hNBPasses),
pattern[0], pattern[1], pattern[2], pattern[3]), -1);
}
// Toggle "advanced" mode
void ToggleAdvanced(void)
{
float dialog_shift = 80.0f;
RECT rect;
POINT point;
int toggle;
advanced_mode = !advanced_mode;
// Increase or decrease the Window size
GetWindowRect(hMainDialog, &rect);
point.x = (rect.right - rect.left);
point.y = (rect.bottom - rect.top);
MoveWindow(hMainDialog, rect.left, rect.top, point.x,
point.y + (int)(fScale*(advanced_mode?dialog_shift:-dialog_shift)), TRUE);
// Move the status bar up or down
MoveCtrlY(hMainDialog, IDC_STATUS, dialog_shift);
MoveCtrlY(hMainDialog, IDC_START, dialog_shift);
MoveCtrlY(hMainDialog, IDC_PROGRESS, dialog_shift);
MoveCtrlY(hMainDialog, IDC_ABOUT, dialog_shift);
MoveCtrlY(hMainDialog, IDC_LOG, dialog_shift);
MoveCtrlY(hMainDialog, IDCANCEL, dialog_shift);
#ifdef RUFUS_TEST
MoveCtrlY(hMainDialog, IDC_TEST, dialog_shift);
#endif
// And do the same for the log dialog while we're at it
GetWindowRect(hLogDlg, &rect);
point.x = (rect.right - rect.left);
point.y = (rect.bottom - rect.top);
MoveWindow(hLogDlg, rect.left, rect.top, point.x,
point.y + (int)(fScale*(advanced_mode?dialog_shift:-dialog_shift)), TRUE);
MoveCtrlY(hLogDlg, IDC_LOG_CLEAR, dialog_shift);
MoveCtrlY(hLogDlg, IDC_LOG_SAVE, dialog_shift);
MoveCtrlY(hLogDlg, IDCANCEL, dialog_shift);
GetWindowRect(hLog, &rect);
point.x = (rect.right - rect.left);
point.y = (rect.bottom - rect.top) + (int)(fScale*(advanced_mode?dialog_shift:-dialog_shift));
SetWindowPos(hLog, 0, 0, 0, point.x, point.y, 0);
// Don't forget to scroll the edit to the bottom after resize
SendMessage(hLog, EM_LINESCROLL, 0, SendMessage(hLog, EM_GETLINECOUNT, 0, 0));
// Hide or show the various advanced options
toggle = advanced_mode?SW_SHOW:SW_HIDE;
ShowWindow(GetDlgItem(hMainDialog, IDC_ENABLE_FIXED_DISKS), toggle);
ShowWindow(GetDlgItem(hMainDialog, IDC_EXTRA_PARTITION), toggle);
ShowWindow(GetDlgItem(hMainDialog, IDC_RUFUS_MBR), toggle);
ShowWindow(GetDlgItem(hMainDialog, IDC_DISK_ID), toggle);
ShowWindow(GetDlgItem(hMainDialog, IDS_ADVANCED_OPTIONS_GRP), toggle);
// Toggle the up/down icon
SendMessage(GetDlgItem(hMainDialog, IDC_ADVANCED), BCM_SETIMAGELIST, 0, (LPARAM)(advanced_mode?&bi_up:&bi_down));
}
static BOOL BootCheck(void)
{
int fs, bt, dt, r;
FILE* fd;
const char* ldlinux_name = "ldlinux.c32";
dt = (int)ComboBox_GetItemData(hBootType, ComboBox_GetCurSel(hBootType));
if (dt == DT_ISO) {
if (iso_path == NULL) {
MessageBoxU(hMainDialog, lmprintf(MSG_087), lmprintf(MSG_086), MB_OK|MB_ICONERROR);
return FALSE;
}
if ((size_check) && (iso_report.projected_size > (uint64_t)SelectedDrive.DiskSize)) {
MessageBoxU(hMainDialog, lmprintf(MSG_089), lmprintf(MSG_088), MB_OK|MB_ICONERROR);
return FALSE;
}
fs = (int)ComboBox_GetItemData(hFileSystem, ComboBox_GetCurSel(hFileSystem));
bt = GETBIOSTYPE((int)ComboBox_GetItemData(hPartitionScheme, ComboBox_GetCurSel(hPartitionScheme)));
if (bt == BT_UEFI) {
if (!IS_EFI(iso_report)) {
MessageBoxU(hMainDialog, lmprintf(MSG_091), lmprintf(MSG_090), MB_OK|MB_ICONERROR);
return FALSE;
} else if (fs > FS_FAT32) {
MessageBoxU(hMainDialog, lmprintf(MSG_093), lmprintf(MSG_092), MB_OK|MB_ICONERROR);
return FALSE;
} else if (iso_report.has_4GB_file) {
// Who the heck decided that using FAT32 for UEFI boot was a great idea?!?
MessageBoxU(hMainDialog, lmprintf(MSG_095), lmprintf(MSG_094), MB_OK|MB_ICONINFORMATION);
return FALSE;
}
} else if ((fs == FS_NTFS) && (!iso_report.has_bootmgr) && (!IS_WINPE(iso_report.winpe))) {
if (iso_report.has_isolinux) {
MessageBoxU(hMainDialog, lmprintf(MSG_096), lmprintf(MSG_092), MB_OK|MB_ICONERROR);
} else {
MessageBoxU(hMainDialog, lmprintf(MSG_097), lmprintf(MSG_090), MB_OK|MB_ICONERROR);
}
return FALSE;
} else if (((fs == FS_FAT16)||(fs == FS_FAT32)) && (!iso_report.has_isolinux)) {
MessageBoxU(hMainDialog, lmprintf(MSG_098), lmprintf(MSG_090), MB_OK|MB_ICONERROR);
return FALSE;
} else if (((fs == FS_FAT16)||(fs == FS_FAT32)) && (iso_report.has_4GB_file)) {
MessageBoxU(hMainDialog, lmprintf(MSG_100), lmprintf(MSG_099), MB_OK|MB_ICONERROR);
return FALSE;
}
if ((bt == BT_UEFI) && (iso_report.has_win7_efi) && (!WimExtractCheck())) {
if (MessageBoxU(hMainDialog, lmprintf(MSG_102), lmprintf(MSG_101), MB_YESNO|MB_ICONERROR) == IDYES)
ShellExecuteA(hMainDialog, "open", SEVENZIP_URL, NULL, NULL, SW_SHOWNORMAL);
return FALSE;
}
} else if (dt == DT_SYSLINUX_V5) {
_chdirU(app_dir);
fd = fopen(ldlinux_name, "rb");
if (fd != NULL) {
uprintf("Will reuse '%s' for Syslinux v5\n", ldlinux_name);
fclose(fd);
} else {
PrintStatus(0, FALSE, lmprintf(MSG_206, ldlinux_name));
r = MessageBoxU(hMainDialog, lmprintf(MSG_104, ldlinux_name, ldlinux_name),
lmprintf(MSG_103, ldlinux_name), MB_YESNOCANCEL|MB_ICONWARNING);
if (r == IDCANCEL)
return FALSE;
if (r == IDYES) {
SetWindowTextU(hISOProgressDlg, lmprintf(MSG_085, ldlinux_name));
SetWindowTextU(hISOFileName, LDLINUX_C32_URL);
DownloadFile(LDLINUX_C32_URL, ldlinux_name, hISOProgressDlg);
}
}
}
return TRUE;
}
void InitDialog(HWND hDlg)
{
HINSTANCE hDllInst;
HDC hDC;
int i, i16, s16;
char tmp[128], *token;
BOOL is_x64 = FALSE;
BOOL (__stdcall *pIsWow64Process)(HANDLE, PBOOL) = NULL;
#ifdef RUFUS_TEST
ShowWindow(GetDlgItem(hDlg, IDC_TEST), SW_SHOW);
#endif
// Quite a burden to carry around as parameters
hMainDialog = hDlg;
hDeviceList = GetDlgItem(hDlg, IDC_DEVICE);
hPartitionScheme = GetDlgItem(hDlg, IDC_PARTITION_TYPE);
hFileSystem = GetDlgItem(hDlg, IDC_FILESYSTEM);
hClusterSize = GetDlgItem(hDlg, IDC_CLUSTERSIZE);
hLabel = GetDlgItem(hDlg, IDC_LABEL);
hProgress = GetDlgItem(hDlg, IDC_PROGRESS);
hBoot = GetDlgItem(hDlg, IDC_BOOT);
hBootType = GetDlgItem(hDlg, IDC_BOOTTYPE);
hSelectISO = GetDlgItem(hDlg, IDC_SELECT_ISO);
hNBPasses = GetDlgItem(hDlg, IDC_NBPASSES);
hDiskID = GetDlgItem(hDlg, IDC_DISK_ID);
// High DPI scaling
i16 = GetSystemMetrics(SM_CXSMICON);
hDC = GetDC(hDlg);
fScale = GetDeviceCaps(hDC, LOGPIXELSX) / 96.0f;
ReleaseDC(hDlg, hDC);
// Adjust icon size lookup
s16 = i16;
if (s16 >= 54)
s16 = 64;
else if (s16 >= 40)
s16 = 48;
else if (s16 >= 28)
s16 = 32;
else if (s16 >= 20)
s16 = 24;
// Create the title bar icon
SetTitleBarIcon(hDlg);
GetWindowTextA(hDlg, tmp, sizeof(tmp));
// Count of Microsoft for making it more attractive to read a
// version using strtok() than using GetFileVersionInfo()
token = strtok(tmp, "v");
for (i=0; (i<4) && ((token = strtok(NULL, ".")) != NULL); i++)
rufus_version[i] = (uint16_t)atoi(token);
uprintf(APPLICATION_NAME " version %d.%d.%d.%d\n", rufus_version[0], rufus_version[1], rufus_version[2], rufus_version[3]);
// Detect if we're running a 32 or 64 bit system
if (sizeof(uintptr_t) < 8) {
pIsWow64Process = (BOOL (__stdcall *)(HANDLE, PBOOL))
GetProcAddress(GetModuleHandleA("KERNEL32"), "IsWow64Process");
if (pIsWow64Process != NULL) {
(*pIsWow64Process)(GetCurrentProcess(), &is_x64);
}
} else {
is_x64 = TRUE;
}
uprintf("Windows version: %s %d-bit\n", PrintWindowsVersion(nWindowsVersion), is_x64?64:32);
// Detect the LCID
uprintf("LCID: 0x%04X\n", GetUserDefaultLCID());
SetClusterSizeLabels();
// Prefer FreeDOS to MS-DOS
selection_default = DT_FREEDOS;
// Create the status line and initialize the taskbar icon for progress overlay
CreateStatusBar();
CreateTaskbarList();
SetTaskbarProgressState(TASKBAR_NORMAL);
// Use maximum granularity for the progress bar
SendMessage(hProgress, PBM_SETRANGE, 0, (MAX_PROGRESS<<16) & 0xFFFF0000);
// Fill up the passes
for (i=0; i<4; i++) {
IGNORE_RETVAL(ComboBox_AddStringU(hNBPasses, lmprintf((i==0)?MSG_034:MSG_035, i+1)));
}
IGNORE_RETVAL(ComboBox_SetCurSel(hNBPasses, 1));
SetPassesTooltip();
// Fill up the DOS type dropdown
IGNORE_RETVAL(ComboBox_SetItemData(hBootType, ComboBox_AddStringU(hBootType, "MS-DOS"), DT_WINME));
IGNORE_RETVAL(ComboBox_SetItemData(hBootType, ComboBox_AddStringU(hBootType, "FreeDOS"), DT_FREEDOS));
IGNORE_RETVAL(ComboBox_SetItemData(hBootType, ComboBox_AddStringU(hBootType, lmprintf(MSG_036)), DT_ISO));
IGNORE_RETVAL(ComboBox_SetCurSel(hBootType, selection_default));
// Fill up the MBR masqueraded disk IDs ("8 disks should be enough for anybody")
IGNORE_RETVAL(ComboBox_SetItemData(hDiskID, ComboBox_AddStringU(hDiskID, lmprintf(MSG_030, "0x80")), 0x80));
for (i=1; i<=7; i++) {
IGNORE_RETVAL(ComboBox_SetItemData(hDiskID, ComboBox_AddStringU(hDiskID, lmprintf(MSG_109, 0x80+i, i+1)), 0x80+i));
}
IGNORE_RETVAL(ComboBox_SetCurSel(hDiskID, 0));
// Create the string array
StrArrayCreate(&DriveID, MAX_DRIVES);
StrArrayCreate(&DriveLabel, MAX_DRIVES);
// Set various checkboxes
CheckDlgButton(hDlg, IDC_QUICKFORMAT, BST_CHECKED);
CheckDlgButton(hDlg, IDC_BOOT, BST_CHECKED);
CheckDlgButton(hDlg, IDC_SET_ICON, BST_CHECKED);
// Load system icons (NB: Use the excellent http://www.nirsoft.net/utils/iconsext.html to find icon IDs)
hDllInst = LoadLibraryA("shell32.dll");
hIconDisc = (HICON)LoadImage(hDllInst, MAKEINTRESOURCE(12), IMAGE_ICON, s16, s16, LR_DEFAULTCOLOR|LR_SHARED);
if (nWindowsVersion >= WINDOWS_VISTA) {
hIconDown = (HICON)LoadImage(hDllInst, MAKEINTRESOURCE(16750), IMAGE_ICON, s16, s16, LR_DEFAULTCOLOR|LR_SHARED);
hIconUp = (HICON)LoadImage(hDllInst, MAKEINTRESOURCE(16749), IMAGE_ICON, s16, s16, LR_DEFAULTCOLOR|LR_SHARED);
} else {
hIconDown = (HICON)LoadImage(hMainInstance, MAKEINTRESOURCE(IDI_DOWN), IMAGE_ICON, 16, 16, 0);
hIconUp = (HICON)LoadImage(hMainInstance, MAKEINTRESOURCE(IDI_UP), IMAGE_ICON, 16, 16, 0);
}
// Set the icons on the the buttons
pImageList_Create = (ImageList_Create_t) GetProcAddress(GetDLLHandle("Comctl32.dll"), "ImageList_Create");
pImageList_ReplaceIcon = (ImageList_ReplaceIcon_t) GetProcAddress(GetDLLHandle("Comctl32.dll"), "ImageList_ReplaceIcon");
bi_iso.himl = pImageList_Create(i16, i16, ILC_COLOR32 | ILC_MASK, 1, 0);
pImageList_ReplaceIcon(bi_iso.himl, -1, hIconDisc);
SetRect(&bi_iso.margin, 0, 1, 0, 0);
bi_iso.uAlign = BUTTON_IMAGELIST_ALIGN_CENTER;
bi_down.himl = pImageList_Create(i16, i16, ILC_COLOR32 | ILC_MASK, 1, 0);
pImageList_ReplaceIcon(bi_down.himl, -1, hIconDown);
SetRect(&bi_down.margin, 0, 0, 0, 0);
bi_down.uAlign = BUTTON_IMAGELIST_ALIGN_CENTER;
bi_up.himl = pImageList_Create(i16, i16, ILC_COLOR32 | ILC_MASK, 1, 0);
pImageList_ReplaceIcon(bi_up.himl, -1, hIconUp);
SetRect(&bi_up.margin, 0, 0, 0, 0);
bi_up.uAlign = BUTTON_IMAGELIST_ALIGN_CENTER;
SendMessage(hSelectISO, BCM_SETIMAGELIST, 0, (LPARAM)&bi_iso);
SendMessage(GetDlgItem(hDlg, IDC_ADVANCED), BCM_SETIMAGELIST, 0, (LPARAM)&bi_down);
// Set the various tooltips
CreateTooltip(hFileSystem, lmprintf(MSG_157), -1);
CreateTooltip(hClusterSize, lmprintf(MSG_158), -1);
CreateTooltip(hLabel, lmprintf(MSG_159), -1);
CreateTooltip(GetDlgItem(hDlg, IDC_ADVANCED), lmprintf(MSG_160), -1);
CreateTooltip(GetDlgItem(hDlg, IDC_BADBLOCKS), lmprintf(MSG_161), -1);
CreateTooltip(GetDlgItem(hDlg, IDC_QUICKFORMAT), lmprintf(MSG_162), -1);
CreateTooltip(hBoot, lmprintf(MSG_163), -1);
CreateTooltip(hBootType, lmprintf(MSG_164), -1);
CreateTooltip(hSelectISO, lmprintf(MSG_165), -1);
CreateTooltip(GetDlgItem(hDlg, IDC_SET_ICON), lmprintf(MSG_166), 10000);
CreateTooltip(GetDlgItem(hDlg, IDC_RUFUS_MBR), lmprintf(MSG_167), 10000);
CreateTooltip(hDiskID, lmprintf(MSG_168), 10000);
CreateTooltip(GetDlgItem(hDlg, IDC_EXTRA_PARTITION), lmprintf(MSG_169), -1);
CreateTooltip(GetDlgItem(hDlg, IDC_ENABLE_FIXED_DISKS), lmprintf(MSG_170), -1);
CreateTooltip(GetDlgItem(hDlg, IDC_START), lmprintf(MSG_171), -1);
CreateTooltip(GetDlgItem(hDlg, IDC_ABOUT), lmprintf(MSG_172), -1);
// TODO: add new tooltips
ToggleAdvanced(); // We start in advanced mode => go to basic mode
// Process commandline parameters
if (iso_provided) {
// Simulate a button click for ISO selection
PostMessage(hDlg, WM_COMMAND, IDC_SELECT_ISO, 0);
}
}
static void PrintStatus2000(const char* str, BOOL val)
{
PrintStatus(2000, FALSE, (lmprintf((val)?MSG_250:MSG_251, str)));
}
/*
* Main dialog callback
*/
static INT_PTR CALLBACK MainCallback(HWND hDlg, UINT message, WPARAM wParam, LPARAM lParam)
{
DRAWITEMSTRUCT* pDI;
POINT Point;
RECT DialogRect, DesktopRect;
int nDeviceIndex, fs, bt, i, nWidth, nHeight, nb_devices;
static DWORD DeviceNum = 0, LastRefresh = 0;
char tmp[128];
static UINT uBootChecked = BST_CHECKED, uQFChecked;
static BOOL first_log_display = TRUE, user_changed_label = FALSE;
switch (message) {
case WM_DEVICECHANGE:
// The Windows hotplug subsystem sucks. Among other things, if you insert a GPT partitioned
// USB drive with zero partitions, the only device messages you will get are a stream of
// DBT_DEVNODES_CHANGED and that's it. But those messages are also issued when you get a
// DBT_DEVICEARRIVAL and DBT_DEVICEREMOVECOMPLETE, and there's a whole slew of them so we
// can't really issue a refresh for each one we receive
// What we do then is arm a timer on DBT_DEVNODES_CHANGED, if it's been more than 1 second
// since last refresh/arm timer, and have that timer send DBT_CUSTOMEVENT when it expires.
if (format_thid == NULL) {
switch (wParam) {
case DBT_DEVICEARRIVAL:
case DBT_DEVICEREMOVECOMPLETE:
case DBT_CUSTOMEVENT: // This last event is sent by our timer refresh function
LastRefresh = GetTickCount(); // Don't care about 49.7 days rollback of GetTickCount()
KillTimer(hMainDialog, TID_REFRESH_TIMER);
GetUSBDevices((DWORD)ComboBox_GetItemData(hDeviceList, ComboBox_GetCurSel(hDeviceList)));
user_changed_label = FALSE;
return (INT_PTR)TRUE;
case DBT_DEVNODES_CHANGED:
// TODO: figure out what the deal is with extra events when FILE_SHARE_WRITE is not enabled
// If it's been more than a second since last device refresh, arm a refresh timer
if (GetTickCount() > LastRefresh + 1000) {
LastRefresh = GetTickCount();
SetTimer(hMainDialog, TID_REFRESH_TIMER, 1000, RefreshTimer);
}
break;
default:
break;
}
}
break;
case WM_INITDIALOG:
apply_localization(IDD_DIALOG, hDlg);
SetUpdateCheck();
// Create the log window (hidden)
hLogDlg = CreateDialogW(hMainInstance, MAKEINTRESOURCEW(IDD_LOG), hDlg, (DLGPROC)LogProc);
InitDialog(hDlg);
GetUSBDevices(0);
CheckForUpdates(FALSE);
PostMessage(hMainDialog, UM_ISO_CREATE, 0, 0);
return (INT_PTR)TRUE;
// The things one must do to get an ellipsis on the status bar...
case WM_DRAWITEM:
if (wParam == IDC_STATUS) {
pDI = (DRAWITEMSTRUCT*)lParam;
pDI->rcItem.top += (int)(2.0f * fScale);
pDI->rcItem.left += (int)(4.0f * fScale);
SetBkMode(pDI->hDC, TRANSPARENT);
switch(pDI->itemID) {
case 0: // left part
DrawTextExU(pDI->hDC, szStatusMessage, -1, &pDI->rcItem,
DT_LEFT|DT_END_ELLIPSIS|DT_PATH_ELLIPSIS, NULL);
return (INT_PTR)TRUE;
case 1: // right part
SetTextColor(pDI->hDC, GetSysColor(COLOR_3DSHADOW));
DrawTextExA(pDI->hDC, szTimer, -1, &pDI->rcItem, DT_LEFT, NULL);
return (INT_PTR)TRUE;
}
}
break;
case WM_COMMAND:
switch(LOWORD(wParam)) {
case IDOK: // close application
case IDCANCEL:
EnableWindow(GetDlgItem(hISOProgressDlg, IDC_ISO_ABORT), FALSE);
EnableWindow(GetDlgItem(hDlg, IDCANCEL), FALSE);
if (format_thid != NULL) {
if (MessageBoxU(hMainDialog, lmprintf(MSG_105), lmprintf(MSG_049),
MB_YESNO|MB_ICONWARNING) == IDYES) {
// Operation may have completed in the meantime
if (format_thid != NULL) {
FormatStatus = ERROR_SEVERITY_ERROR|FAC(FACILITY_STORAGE)|ERROR_CANCELLED;
PrintStatus(0, FALSE, lmprintf(MSG_201));
uprintf("Cancelling (from main app)\n");
// Start a timer to detect blocking operations during ISO file extraction
if (iso_blocking_status >= 0) {
last_iso_blocking_status = iso_blocking_status;
SetTimer(hMainDialog, TID_BLOCKING_TIMER, 3000, BlockingTimer);
}
}
} else {
EnableWindow(GetDlgItem(hISOProgressDlg, IDC_ISO_ABORT), TRUE);
EnableWindow(GetDlgItem(hDlg, IDCANCEL), TRUE);
}
return (INT_PTR)TRUE;
}
PostQuitMessage(0);
StrArrayDestroy(&DriveID);
StrArrayDestroy(&DriveLabel);
DestroyAllTooltips();
EndDialog(hDlg, 0);
break;
case IDC_ABOUT:
CreateAboutBox();
break;
case IDC_LOG:
// Place the log Window to the right of our dialog on first display
if (first_log_display) {
GetClientRect(GetDesktopWindow(), &DesktopRect);
GetWindowRect(hLogDlg, &DialogRect);
nWidth = DialogRect.right - DialogRect.left;
nHeight = DialogRect.bottom - DialogRect.top;
GetWindowRect(hDlg, &DialogRect);
Point.x = min(DialogRect.right + GetSystemMetrics(SM_CXSIZEFRAME)+(int)(2.0f * fScale), DesktopRect.right - nWidth);
Point.y = max(DialogRect.top, DesktopRect.top - nHeight);
MoveWindow(hLogDlg, Point.x, Point.y, nWidth, nHeight, FALSE);
// The log may have been recentered to fit the screen, in which case, try to shift our main dialog left
nWidth = DialogRect.right - DialogRect.left;
nHeight = DialogRect.bottom - DialogRect.top;
MoveWindow(hDlg, max((DialogRect.left<0)?DialogRect.left:0,
Point.x - nWidth - GetSystemMetrics(SM_CXSIZEFRAME) - (int)(2.0f * fScale)), Point.y, nWidth, nHeight, TRUE);
first_log_display = FALSE;
}
// Display the log Window
log_displayed = !log_displayed;
if (IsShown(hISOProgressDlg))
SetFocus(hISOProgressDlg);
// Set focus on the start button
SendMessage(hMainDialog, WM_NEXTDLGCTL, (WPARAM)FALSE, 0);
SendMessage(hMainDialog, WM_NEXTDLGCTL, (WPARAM)GetDlgItem(hMainDialog, IDC_START), TRUE);
// Must come last for the log window to get focus
ShowWindow(hLogDlg, log_displayed?SW_SHOW:SW_HIDE);
break;
#ifdef RUFUS_TEST
case IDC_TEST:
break;
#endif
case IDC_ADVANCED:
ToggleAdvanced();
SendMessage(hMainDialog, WM_COMMAND, (CBN_SELCHANGE<<16) | IDC_FILESYSTEM,
ComboBox_GetCurSel(hFileSystem));
break;
case IDC_LABEL:
if (HIWORD(wParam) == EN_CHANGE)
user_changed_label = TRUE;
break;
case IDC_DEVICE:
if (HIWORD(wParam) != CBN_SELCHANGE)
break;
nb_devices = ComboBox_GetCount(hDeviceList);
PrintStatus(0, TRUE, lmprintf((nb_devices==1)?MSG_208:MSG_209, nb_devices));
PopulateProperties(ComboBox_GetCurSel(hDeviceList));
SendMessage(hMainDialog, WM_COMMAND, (CBN_SELCHANGE<<16) | IDC_FILESYSTEM,
ComboBox_GetCurSel(hFileSystem));
break;
case IDC_NBPASSES:
if (HIWORD(wParam) != CBN_SELCHANGE)
break;
SetPassesTooltip();
break;
case IDC_PARTITION_TYPE:
if (HIWORD(wParam) != CBN_SELCHANGE)
break;
SetPartitionSchemeTooltip();
SetFSFromISO();
// fall-through
case IDC_FILESYSTEM:
if (HIWORD(wParam) != CBN_SELCHANGE)
break;
fs = (int)ComboBox_GetItemData(hFileSystem, ComboBox_GetCurSel(hFileSystem));
bt = GETBIOSTYPE((int)ComboBox_GetItemData(hPartitionScheme, ComboBox_GetCurSel(hPartitionScheme)));
SetClusterSizes(fs);
// Disable/restore the quick format control depending on large FAT32
if ((fs == FS_FAT32) && (SelectedDrive.DiskSize > LARGE_FAT32_SIZE)) {
if (IsWindowEnabled(GetDlgItem(hMainDialog, IDC_QUICKFORMAT))) {
uQFChecked = IsDlgButtonChecked(hMainDialog, IDC_QUICKFORMAT);
CheckDlgButton(hMainDialog, IDC_QUICKFORMAT, BST_CHECKED);
EnableWindow(GetDlgItem(hMainDialog, IDC_QUICKFORMAT), FALSE);
}
} else {
if (!IsWindowEnabled(GetDlgItem(hMainDialog, IDC_QUICKFORMAT))) {
CheckDlgButton(hMainDialog, IDC_QUICKFORMAT, uQFChecked);
EnableWindow(GetDlgItem(hMainDialog, IDC_QUICKFORMAT), TRUE);
}
}
if (fs < 0) {
EnableBootOptions(TRUE);
SetMBRProps();
// Remove the SysLinux options if they exists
if (ComboBox_GetItemData(hBootType, ComboBox_GetCount(hBootType)-1) == DT_SYSLINUX_V5) {
IGNORE_RETVAL(ComboBox_DeleteString(hBootType, ComboBox_GetCount(hBootType)-1));
IGNORE_RETVAL(ComboBox_DeleteString(hBootType, ComboBox_GetCount(hBootType)-1));
IGNORE_RETVAL(ComboBox_SetCurSel(hBootType, 1));
}
break;
}
if ((fs == FS_EXFAT) || (fs == FS_UDF)) {
if (IsWindowEnabled(hBoot)) {
// unlikely to be supported by BIOSes => don't bother
IGNORE_RETVAL(ComboBox_SetCurSel(hBootType, 0));
uBootChecked = IsDlgButtonChecked(hMainDialog, IDC_BOOT);
CheckDlgButton(hDlg, IDC_BOOT, BST_UNCHECKED);
EnableBootOptions(FALSE);
} else if (IsDlgButtonChecked(hMainDialog, IDC_BOOT)) {
uBootChecked = TRUE;
CheckDlgButton(hDlg, IDC_BOOT, BST_UNCHECKED);
}
SetMBRProps();
break;
}
EnableAdvancedBootOptions(TRUE);
IGNORE_RETVAL(ComboBox_ResetContent(hBootType));
if ((bt == BT_BIOS) && ((fs == FS_FAT16) || (fs == FS_FAT32))) {
IGNORE_RETVAL(ComboBox_SetItemData(hBootType, ComboBox_AddStringU(hBootType, "MS-DOS"), DT_WINME));
IGNORE_RETVAL(ComboBox_SetItemData(hBootType, ComboBox_AddStringU(hBootType, "FreeDOS"), DT_FREEDOS));
}
IGNORE_RETVAL(ComboBox_SetItemData(hBootType, ComboBox_AddStringU(hBootType, lmprintf(MSG_036)), DT_ISO));
// If needed (advanced mode) also append a Syslinux option
if ( (bt == BT_BIOS) && (((fs == FS_FAT16) || (fs == FS_FAT32)) && (advanced_mode)) ) {
IGNORE_RETVAL(ComboBox_SetItemData(hBootType, ComboBox_AddStringU(hBootType, "Syslinux 4"), DT_SYSLINUX_V4));
IGNORE_RETVAL(ComboBox_SetItemData(hBootType, ComboBox_AddStringU(hBootType, "Syslinux 5"), DT_SYSLINUX_V5));
}
if ( ((!advanced_mode) && ((selection_default == DT_SYSLINUX_V4) || (selection_default == DT_SYSLINUX_V5))) ) {
selection_default = DT_FREEDOS;
CheckDlgButton(hDlg, IDC_DISK_ID, BST_UNCHECKED);
}
for (i=0; i<ComboBox_GetCount(hBootType); i++) {
if (ComboBox_GetItemData(hBootType, i) == selection_default) {
IGNORE_RETVAL(ComboBox_SetCurSel(hBootType, i));
break;
}
}
if (i == ComboBox_GetCount(hBootType))
IGNORE_RETVAL(ComboBox_SetCurSel(hBootType, 0));
if (!IsWindowEnabled(hBoot)) {
EnableWindow(hBoot, TRUE);
EnableWindow(hBootType, TRUE);
EnableWindow(hSelectISO, TRUE);
CheckDlgButton(hDlg, IDC_BOOT, uBootChecked);
}
SetMBRProps();
break;
case IDC_BOOTTYPE:
if (HIWORD(wParam) != CBN_SELCHANGE)
break;
selection_default = (int) ComboBox_GetItemData(hBootType, ComboBox_GetCurSel(hBootType));
if (ComboBox_GetItemData(hBootType, ComboBox_GetCurSel(hBootType)) == DT_ISO) {
if ((iso_path == NULL) || (iso_report.label[0] == 0)) {
// Set focus to the Select ISO button
SendMessage(hMainDialog, WM_NEXTDLGCTL, (WPARAM)FALSE, 0);
SendMessage(hMainDialog, WM_NEXTDLGCTL, (WPARAM)hSelectISO, TRUE);
} else {
// Some distros (eg. Arch Linux) want to see a specific label => ignore user one
SetWindowTextU(hLabel, iso_report.label);
}
} else {
// Set focus on the start button
SendMessage(hMainDialog, WM_NEXTDLGCTL, (WPARAM)FALSE, 0);
SendMessage(hMainDialog, WM_NEXTDLGCTL, (WPARAM)GetDlgItem(hMainDialog, IDC_START), TRUE);
// For non ISO, if the user manually set a label, try to preserve it
if (!user_changed_label)
SetWindowTextU(hLabel, SelectedDrive.proposed_label);
// Reset disk ID to 0x80 if Rufus MBR is used
IGNORE_RETVAL(ComboBox_SetCurSel(hDiskID, 0));
}
return (INT_PTR)TRUE;
case IDC_SELECT_ISO:
if (iso_provided) {
uprintf("Commandline ISO image provided: '%s'\n", iso_path);
iso_provided = FALSE; // One off thing...
} else {
safe_free(iso_path);
iso_path = FileDialog(FALSE, NULL, "*.iso", "iso", lmprintf(MSG_036));
if (iso_path == NULL) {
CreateTooltip(hSelectISO, lmprintf(MSG_173), -1);
break;
}
}
selection_default = DT_ISO;
CreateTooltip(hSelectISO, iso_path, -1);
FormatStatus = 0;
if (CreateThread(NULL, 0, ISOScanThread, NULL, 0, NULL) == NULL) {
uprintf("Unable to start ISO scanning thread");
FormatStatus = ERROR_SEVERITY_ERROR|FAC(FACILITY_STORAGE)|APPERR(ERROR_CANT_START_THREAD);
}
break;
case IDC_RUFUS_MBR:
if ((HIWORD(wParam)) == BN_CLICKED)
mbr_selected_by_user = IsChecked(IDC_RUFUS_MBR);
break;
case IDC_ENABLE_FIXED_DISKS:
if ((HIWORD(wParam)) == BN_CLICKED) {
enable_fixed_disks = !enable_fixed_disks;
PrintStatus2000(lmprintf(MSG_253), enable_fixed_disks);
GetUSBDevices(0);
}
break;
case IDC_START:
if (format_thid != NULL) {
return (INT_PTR)TRUE;
}
FormatStatus = 0;
format_op_in_progress = TRUE;
// Reset all progress bars
SendMessage(hProgress, PBM_SETSTATE, (WPARAM)PBST_NORMAL, 0);
SetTaskbarProgressState(TASKBAR_NORMAL);
SetTaskbarProgressValue(0, MAX_PROGRESS);
SendMessage(hProgress, PBM_SETPOS, 0, 0);
selection_default = (int)ComboBox_GetItemData(hBootType, ComboBox_GetCurSel(hBootType));
nDeviceIndex = ComboBox_GetCurSel(hDeviceList);
if (nDeviceIndex != CB_ERR) {
if ((IsChecked(IDC_BOOT)) && (!BootCheck())) {
format_op_in_progress = FALSE;
break;
}
GetWindowTextU(hDeviceList, tmp, ARRAYSIZE(tmp));
if (MessageBoxU(hMainDialog, lmprintf(MSG_003, tmp),
APPLICATION_NAME, MB_OKCANCEL|MB_ICONWARNING) == IDCANCEL) {
format_op_in_progress = FALSE;
break;
}
// Disable all controls except cancel
EnableControls(FALSE);
DeviceNum = (DWORD)ComboBox_GetItemData(hDeviceList, nDeviceIndex);
FormatStatus = 0;
InitProgress();
format_thid = CreateThread(NULL, 0, FormatThread, (LPVOID)(uintptr_t)DeviceNum, 0, NULL);
if (format_thid == NULL) {
uprintf("Unable to start formatting thread");
FormatStatus = ERROR_SEVERITY_ERROR|FAC(FACILITY_STORAGE)|APPERR(ERROR_CANT_START_THREAD);
PostMessage(hMainDialog, UM_FORMAT_COMPLETED, 0, 0);
}
uprintf("\r\nFormat operation started");
PrintStatus(0, FALSE, "");
timer = 0;
safe_sprintf(szTimer, sizeof(szTimer), "00:00:00");
SendMessageA(GetDlgItem(hMainDialog, IDC_STATUS), SB_SETTEXTA,
SBT_OWNERDRAW | 1, (LPARAM)szTimer);
SetTimer(hMainDialog, TID_APP_TIMER, 1000, ClockTimer);
}
if (format_thid == NULL)
format_op_in_progress = FALSE;
break;
default:
return (INT_PTR)FALSE;
}
return (INT_PTR)TRUE;
case WM_CLOSE:
if (format_thid != NULL) {
return (INT_PTR)TRUE;
}
PostQuitMessage(0);
break;
case UM_ISO_CREATE:
// You'd think that Windows would let you instantiate a modeless dialog wherever
// but you'd be wrong. It must be done in the main callback, hence the custom message.
if (!IsWindow(hISOProgressDlg)) {
hISOProgressDlg = CreateDialogW(hMainInstance, MAKEINTRESOURCEW(IDD_ISO_EXTRACT),
hDlg, (DLGPROC)ISOProc);
// The window is not visible by default but takes focus => restore it
SetFocus(hDlg);
}
return (INT_PTR)TRUE;
case UM_FORMAT_COMPLETED:
format_thid = NULL;
// Stop the timer
KillTimer(hMainDialog, TID_APP_TIMER);
// Close the cancel MessageBox and Blocking notification if active
SendMessage(FindWindowA(MAKEINTRESOURCEA(32770), lmprintf(MSG_049)), WM_COMMAND, IDNO, 0);
SendMessage(FindWindowA(MAKEINTRESOURCEA(32770), lmprintf(MSG_049)), WM_COMMAND, IDYES, 0);
EnableWindow(GetDlgItem(hISOProgressDlg, IDC_ISO_ABORT), TRUE);
EnableWindow(GetDlgItem(hMainDialog, IDCANCEL), TRUE);
EnableControls(TRUE);
uprintf("\r\n");
GetUSBDevices(DeviceNum);
if (!IS_ERROR(FormatStatus)) {
// This is the only way to achieve instantaneous progress transition to 100%
SendMessage(hProgress, PBM_SETRANGE, 0, ((MAX_PROGRESS+1)<<16) & 0xFFFF0000);
SendMessage(hProgress, PBM_SETPOS, (MAX_PROGRESS+1), 0);
SendMessage(hProgress, PBM_SETRANGE, 0, (MAX_PROGRESS<<16) & 0xFFFF0000);
SetTaskbarProgressState(TASKBAR_NOPROGRESS);
PrintStatus(0, FALSE, lmprintf(MSG_210));
} else if (SCODE_CODE(FormatStatus) == ERROR_CANCELLED) {
SendMessage(hProgress, PBM_SETSTATE, (WPARAM)PBST_PAUSED, 0);
SetTaskbarProgressState(TASKBAR_PAUSED);
PrintStatus(0, FALSE, lmprintf(MSG_211));
Notification(MSG_INFO, NULL, lmprintf(MSG_211), lmprintf(MSG_041));
} else {
SendMessage(hProgress, PBM_SETSTATE, (WPARAM)PBST_ERROR, 0);
SetTaskbarProgressState(TASKBAR_ERROR);
PrintStatus(0, FALSE, lmprintf(MSG_212));
Notification(MSG_ERROR, NULL, lmprintf(MSG_042), lmprintf(MSG_043), StrError(FormatStatus));
}
FormatStatus = 0;
format_op_in_progress = FALSE;
return (INT_PTR)TRUE;
}
return (INT_PTR)FALSE;
}
static void PrintUsage(char* appname)
{
char fname[_MAX_FNAME];
_splitpath(appname, NULL, NULL, fname, NULL);
printf("\nUsage: %s [-h] [-i PATH] [-w TIMEOUT]\n", fname);
printf(" -i PATH, --iso=PATH\n");
printf(" Select the ISO image pointed by PATH to be used on startup\n");
printf(" -w TIMEOUT, --wait=TIMEOUT\n");
printf(" Wait TIMEOUT tens of a second for the global application mutex to be released.\n");
printf(" Used when launching a newer version of " APPLICATION_NAME " from a running application.\n");
printf(" -h, --help\n");
printf(" This usage guide.\n");
}
/* There's a massive annoyance when taking over the console in a win32 app
* in that it doesn't return the prompt on app exit. So we must handle that
* manually, but the *ONLY* frigging way to achieve it is by simulating a
* keypress... which means we first need to bring our console back on top.
* And people wonder why developing elegant Win32 apps takes forever...
*/
static void DetachConsole(void)
{
INPUT input;
HWND hWnd;
hWnd = GetConsoleWindow();
SetWindowPos(hWnd, HWND_TOP, 0, 0, 0, 0, SWP_NOSIZE | SWP_NOMOVE);
FreeConsole();
memset(&input, 0, sizeof(input));
input.type = INPUT_KEYBOARD;
input.ki.wVk = VK_RETURN;
SendInput(1, &input, sizeof(input));
input.ki.dwFlags = KEYEVENTF_KEYUP;
SendInput(1, &input, sizeof(input));
}
/*
* Application Entrypoint
*/
typedef int (CDECL *__wgetmainargs_t)(int*, wchar_t***, wchar_t***, int, int*);
#if defined(_MSC_VER) && (_MSC_VER >= 1600)
int WINAPI WinMain(_In_ HINSTANCE hInstance, _In_opt_ HINSTANCE hPrevInstance, _In_ LPSTR lpCmdLine, _In_ int nShowCmd)
#else
int WINAPI WinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPSTR lpCmdLine, int nCmdShow)
#endif
{
const char* old_wait_option = "/W";
int i, opt, option_index = 0, argc = 0, si = 0;
BOOL attached_console = FALSE;
BYTE* loc_data;
DWORD loc_size, Size;
char tmp_path[MAX_PATH], loc_file[MAX_PATH] = "", *locale_name = NULL;
char** argv = NULL;
wchar_t **wenv, **wargv;
PF_DECL(__wgetmainargs);
HANDLE mutex = NULL, hFile = NULL;
HWND hDlg = NULL;
MSG msg;
int wait_for_mutex = 0;
struct option long_options[] = {
{"help", no_argument, NULL, 'h'},
{"iso", required_argument, NULL, 'i'},
{"wait", required_argument, NULL, 'w'},
{0, 0, NULL, 0}
};
uprintf("*** " APPLICATION_NAME " init ***\n");
// Reattach the console, if we were started from commandline
if (AttachConsole(ATTACH_PARENT_PROCESS) != 0) {
attached_console = TRUE;
IGNORE_RETVAL(freopen("CONIN$", "r", stdin));
IGNORE_RETVAL(freopen("CONOUT$", "w", stdout));
IGNORE_RETVAL(freopen("CONOUT$", "w", stderr));
_flushall();
printf("\n");
}
// We have to process the arguments before we acquire the lock and process the locale
PF_INIT(__wgetmainargs, msvcrt);
if (pf__wgetmainargs != NULL) {
pf__wgetmainargs(&argc, &wargv, &wenv, 1, &si);
argv = (char**)calloc(argc, sizeof(char*));
for (i=0; i<argc; i++) {
argv[i] = wchar_to_utf8(wargv[i]);
// Check for "/W" (wait for mutex release for pre 1.3.3 versions)
if (safe_strcmp(argv[i], old_wait_option) == 0)
wait_for_mutex = 150; // Try to acquire the mutex for 15 seconds
}
while ((opt = getopt_long(argc, argv, "?fhi:w:l:", long_options, &option_index)) != EOF)
switch (opt) {
case 'f':
enable_fixed_disks = TRUE;
break;
case 'i':
if (_access(optarg, 0) != -1) {
iso_path = safe_strdup(optarg);
iso_provided = TRUE;
} else {
printf("Could not find ISO image '%s'\n", optarg);
}
break;
case 'l':
// TODO: accept a locale code such as 0x409
locale_name = optarg;
break;
case 'w':
wait_for_mutex = atoi(optarg);
break;
case '?':
case 'h':
default:
PrintUsage(argv[0]);
goto out;
}
} else {
uprintf("unable to access UTF-16 args");
}
// Retrieve the current application directory
GetCurrentDirectoryU(MAX_PATH, app_dir);
// Init localization
init_localization();
// Seek for a loc file in the current directory
if (GetFileAttributesU("rufus.loc") == INVALID_FILE_ATTRIBUTES) {
uprintf("loc file not found in current directory - embedded one will be used");
loc_data = (BYTE*)GetResource(hMainInstance, MAKEINTRESOURCEA(IDR_LC_RUFUS_LOC), _RT_RCDATA, "rufus.loc", &loc_size, FALSE);
GetTempPathU(sizeof(tmp_path), tmp_path);
GetTempFileNameU(tmp_path, APPLICATION_NAME, 0, loc_file);
hFile = CreateFileU(loc_file, GENERIC_READ|GENERIC_WRITE, FILE_SHARE_READ|FILE_SHARE_WRITE,
NULL, CREATE_ALWAYS, 0, 0);
if ((hFile == INVALID_HANDLE_VALUE)|| (!WriteFile(hFile, loc_data, loc_size, &Size, 0)) || (loc_size != Size)) {
safe_closehandle(hFile);
uprintf("localization: unable to extract '%s': %s.\n", loc_file, WindowsErrorString());
} else {
safe_closehandle(hFile);
uprintf("localization: extracted data to '%s'\n", loc_file);
}
} else {
safe_sprintf(loc_file, sizeof(loc_file), "%s\\rufus.loc", app_dir);
uprintf("using external loc file '%s'", loc_file);
}
if ( (!get_supported_locales(loc_file))
|| ((selected_locale = ((locale_name == NULL)?get_locale_from_lcid(GetUserDefaultLCID()):get_locale_from_name(locale_name))) == NULL) ) {
uprintf("FATAL: Could not access locale!\n");
MessageBoxU(NULL, "The locale data is missing. This application will now exit.",
"Fatal error", MB_ICONSTOP);
goto out;
}
uprintf("localization: using locale '%s'\n", selected_locale->txt[0]);
get_loc_data_file(loc_file, (long)selected_locale->num[0], (long)selected_locale->num[1], selected_locale->line_nr);
// Prevent 2 applications from running at the same time, unless "/W" is passed as an option
// in which case we wait for the mutex to be relinquished
if ((safe_strlen(lpCmdLine)==2) && (lpCmdLine[0] == '/') && (lpCmdLine[1] == 'W'))
wait_for_mutex = 150; // Try to acquire the mutex for 15 seconds
mutex = CreateMutexA(NULL, TRUE, "Global/" APPLICATION_NAME);
for (;(wait_for_mutex>0) && (mutex != NULL) && (GetLastError() == ERROR_ALREADY_EXISTS); wait_for_mutex--) {
CloseHandle(mutex);
Sleep(100);
mutex = CreateMutexA(NULL, TRUE, "Global/" APPLICATION_NAME);
}
if ((mutex == NULL) || (GetLastError() == ERROR_ALREADY_EXISTS)) {
MessageBoxU(NULL, lmprintf(MSG_002), lmprintf(MSG_001), MB_ICONSTOP);
goto out;
}
// Save instance of the application for further reference
hMainInstance = hInstance;
// Initialize COM for folder selection
IGNORE_RETVAL(CoInitializeEx(NULL, COINIT_APARTMENTTHREADED));
// Some dialogs have Rich Edit controls and won't display without this
if (LoadLibraryA("Riched20.dll") == NULL) {
uprintf("Could not load RichEdit library - some dialogs may not display: %s\n", WindowsErrorString());
}
// Set the Windows version
nWindowsVersion = DetectWindowsVersion();
// We use local group policies rather than direct registry manipulation
// 0x9e disables removable and fixed drive notifications
SetLGP(FALSE, &existing_key, "Software\\Microsoft\\Windows\\CurrentVersion\\Policies\\Explorer", "NoDriveTypeAutorun", 0x9e);
// Create the main Window
hDlg = CreateDialogW(hInstance, MAKEINTRESOURCEW(IDD_DIALOG), NULL, MainCallback);
if (hDlg == NULL) {
MessageBoxU(NULL, "Could not create Window", "DialogBox failure", MB_ICONSTOP);
goto out;
}
ShowWindow(hDlg, SW_SHOWNORMAL);
UpdateWindow(hDlg);
// Do our own event processing and process "magic" commands
while(GetMessage(&msg, NULL, 0, 0)) {
// The following ensures the processing of the ISO progress window messages
if (!IsWindow(hISOProgressDlg) || !IsDialogMessage(hISOProgressDlg, &msg)) {
// Alt-S => Disable size limit for ISOs
// By default, Rufus will not copy ISOs that are larger than in size than
// the target USB drive. If this is enabled, the size check is disabled.
if ((msg.message == WM_SYSKEYDOWN) && (msg.wParam == 'S')) {
size_check = !size_check;
PrintStatus2000(lmprintf(MSG_252), size_check);
GetUSBDevices(0);
continue;
}
// Alt-F => Toggle detection of fixed disks
// By default Rufus does not allow formatting USB fixed disk drives, such as USB HDDs
// This is a safety feature, to avoid someone unintentionally formatting a backup
// drive instead of an USB key. If this is enabled, Rufus will allow fixed disk formatting.
if ((msg.message == WM_SYSKEYDOWN) && (msg.wParam == 'F')) {
enable_fixed_disks = !enable_fixed_disks;
PrintStatus2000(lmprintf(MSG_253), enable_fixed_disks);
GetUSBDevices(0);
continue;
}
// Alt-L => Force Large FAT32 format to be used on < 32 GB drives
if ((msg.message == WM_SYSKEYDOWN) && (msg.wParam == 'L')) {
force_large_fat32 = !force_large_fat32;
PrintStatus2000(lmprintf(MSG_254), force_large_fat32);
continue;
}
// Alt-D => Delete the NoDriveTypeAutorun key on exit (useful if the app crashed)
// This key is used to disable Windows popup messages when an USB drive is plugged in.
if ((msg.message == WM_SYSKEYDOWN) && (msg.wParam == 'D')) {
PrintStatus(2000, FALSE, lmprintf(MSG_255));
existing_key = FALSE;
continue;
}
// Alt J => Toggle Joliet support for ISO9660 images
// Some ISOs (Ubuntu) have Joliet extensions but expect applications not to use them,
// due to their reliance on filenames that are > 64 chars (the Joliet max length for
// a file name). This option allows users to ignore Joliet when using such images.
if ((msg.message == WM_SYSKEYDOWN) && (msg.wParam == 'J')) {
enable_joliet = !enable_joliet;
PrintStatus2000(lmprintf(MSG_257), enable_joliet);
continue;
}
// Alt K => Toggle Rock Ridge support for ISO9660 images
if ((msg.message == WM_SYSKEYDOWN) && (msg.wParam == 'K')) {
enable_rockridge = !enable_rockridge;
PrintStatus2000(lmprintf(MSG_258), enable_rockridge);
continue;
}
// Alt L => Toggle fake drive detection during bad blocks check
// By default, Rufus will check for fake USB flash drives that mistakenly present
// more capacity than they already have by looping over the flash. This check which
// is enabled by default is performed by writing the block number sequence and reading
// it back during the bad block check.
if ((msg.message == WM_SYSKEYDOWN) && (msg.wParam == 'L')) {
detect_fakes = !detect_fakes;
PrintStatus2000(lmprintf(MSG_256), detect_fakes);
continue;
}
// Alt-R => Remove all the registry keys created by Rufus
if ((msg.message == WM_SYSKEYDOWN) && (msg.wParam == 'R')) {
PrintStatus(2000, FALSE, lmprintf(DeleteRegistryKey(REGKEY_HKCU, COMPANY_NAME "\\" APPLICATION_NAME)?MSG_248:MSG_249));
// Also try to delete the upper key (company name) if it's empty (don't care about the result)
DeleteRegistryKey(REGKEY_HKCU, COMPANY_NAME);
continue;
}
TranslateMessage(&msg);
DispatchMessage(&msg);
}
}
out:
if (loc_file[0] != 0)
DeleteFileU(loc_file);
DestroyAllTooltips();
exit_localization();
safe_free(iso_path);
safe_free(update.download_url);
safe_free(update.release_notes);
if (argv != NULL) {
for (i=0; i<argc; i++) safe_free(argv[i]);
safe_free(argv);
}
SetLGP(TRUE, &existing_key, "Software\\Microsoft\\Windows\\CurrentVersion\\Policies\\Explorer", "NoDriveTypeAutorun", 0);
if (attached_console)
DetachConsole();
CloseHandle(mutex);
uprintf("*** " APPLICATION_NAME " exit ***\n");
#ifdef _CRTDBG_MAP_ALLOC
_CrtDumpMemoryLeaks();
#endif
return 0;
}
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