void
as_destroy(struct addrspace *as)
{
/*
* Clean up as needed.
*/
unsigned len, i;
pt_destroy(as, as->pagetable);
struct region *region_ptr;
for (i = 0; i < PT_LEVEL_SIZE; i++) {
if (as->pt_locks[i])
lock_destroy(as->pt_locks[i]);
}
len = array_num(as->as_regions);
// for (i = len - 1; i > 0; i--){
// region_ptr = array_get(as->as_regions, i);
// kfree(region_ptr);
// array_remove(as->as_regions, i);
// }
i = len - 1;
while (len > 0){
region_ptr = array_get(as->as_regions, i);
kfree(region_ptr);
array_remove(as->as_regions, i);
if (i == 0)
break;
i--;
}
array_destroy(as->as_regions);
kfree(as);
}
static void removePagesWithinRegion(struct addrspace* as, struct region* reg) {
int pageCount = array_num(as->as_pagetable);
int i;
for (i = 0; i < pageCount; i++) {
struct page *pageCandidate = array_get(as->as_pagetable, i);
if (pageCandidate != NULL
&& pageCandidate->pt_virtbase >= reg->rg_vaddr / PAGE_SIZE
&& pageCandidate->pt_virtbase
<= (reg->rg_vaddr + reg->rg_size) / PAGE_SIZE) {
array_remove(as->as_pagetable, i);
freePage(pageCandidate);
kfree(pageCandidate);
i--;
pageCount = array_num(as->as_pagetable);
}
}
}
bool stack_increase(struct stack_s* self, int increase_num)
{
bool ret = array_increase(self->array, increase_num);
if(ret)
{
self->element_num = array_num(self->array);
}
return ret;
}
static int getftarrayindex(struct array* ft, int fd) {
unsigned int i;
unsigned int ft_len = array_num(ft);
for (i = 0; i < ft_len; i++) {
if (((struct filetable_entry*) array_get(ft, i))->ft_fd == fd) {
return i;
}
}
return -1;
}
struct proc* proc_createchild(struct proc* parent, struct addrspace** as) {
struct proc* child = proc_create(parent->p_name);
if (child == NULL) {
return NULL;
}
unsigned int i;
// TODO Move this to a separate method
for (i = 0; i < array_num(parent->p_filetable); i++) {
struct filetable_entry* entry = array_get(parent->p_filetable, i);
struct filetable_entry* newentry = (struct filetable_entry*) kmalloc(sizeof(struct filetable_entry));
if(entry == NULL) {
proc_destroy(child);
return NULL;
}
newentry->ft_fd = entry->ft_fd;
newentry->ft_handle = entry->ft_handle;
filehandle_incref(entry->ft_handle);
int s = array_add(child->p_filetable, newentry, NULL);
if (s == ENOMEM) {
proc_destroy(child);
return NULL;
}
}
child->p_fdcounter = parent->p_fdcounter;
/** process table */
if (addTo_processtable(child) != 0) {
return NULL;
}
child->p_ppid = parent->p_pid;
/** cwd */
/*
* Lock the current process to copy its current directory.
* (We don't need to lock the new process, though, as we have
* the only reference to it.)
*/
spinlock_acquire(&(parent->p_lock));
if (parent->p_cwd != NULL) {
VOP_INCREF(parent->p_cwd);
child->p_cwd = parent->p_cwd;
}
spinlock_release(&(parent->p_lock));
/** address space */
(void) as;
return child;
}
static struct page* findPageForFaultAddress(struct addrspace* as,
vaddr_t faultaddress) {
int pageCount = array_num(as->as_pagetable);
int i;
for (i = 0; i < pageCount; i++) {
struct page *pageCandidate = array_get(as->as_pagetable, i);
if (pageCandidate != NULL
&& pageCandidate->pt_virtbase == faultaddress / PAGE_SIZE) {
return pageCandidate;
}
}
return NULL;
}
static struct page* findPageFromCoreMap(struct core_map_entry* cm, int idx) {
int num = array_num(cm->as->as_pagetable);
int i;
for (i = 0; i < num; i++) {
struct page* pg = array_get(cm->as->as_pagetable, i);
if (pg->pt_pagebase == cm_getEntryPaddr(idx) / PAGE_SIZE) {
return pg;
}
}
panic("couldnt find page in address space\n");
return NULL;
}
static int reduceHeapSize(userptr_t amount, int32_t* retval,
struct addrspace* as) {
vaddr_t newStart = as->as_addrPtr + (vaddr_t) amount;
vaddr_t oldStart = as->as_addrPtr;
unsigned int regionCount = array_num(as->as_regions);
unsigned int i;
if (as->as_heapBase > newStart) {
//kprintf("Invalid because it falls within code page %x\n",
// codepage->rg_vaddr + codepage->rg_size);
*retval = -1;
return ENOMEM;
}
for (i = 0; i < regionCount; i++) {
struct region* reg = array_get(as->as_regions, i);
if (reg != NULL && reg->rg_vaddr >= as->as_stackBase
&& reg->rg_vaddr + reg->rg_size >= as->as_stackBase) {
continue;
}
if (reg != NULL && reg->rg_vaddr >= newStart) {
removePagesWithinRegion(as, reg);
array_remove(as->as_regions, i);
kfree(reg);
i--;
regionCount = array_num(as->as_regions);
} else if (reg != NULL && reg->rg_vaddr <= newStart
&& reg->rg_vaddr + reg->rg_size >= newStart) {
struct region tempReg;
tempReg.rg_vaddr = newStart;
tempReg.rg_size = newStart - (reg->rg_vaddr + reg->rg_size);
reg->rg_size = newStart - reg->rg_vaddr;
removePagesWithinRegion(as, &tempReg);
}
}
as->as_addrPtr = newStart;
*retval = oldStart;
//kprintf("retval is = %x\n", as->as_addrPtr);
return 0;
}
static struct region* findRegionForFaultAddress(struct addrspace* as,
vaddr_t address) {
int regionCount = array_num(as->as_regions);
int i;
for (i = 0; i < regionCount; i++) {
struct region* reg = array_get(as->as_regions, i);
if (reg != NULL && reg->rg_vaddr <= address
&& (reg->rg_vaddr + reg->rg_size) > address) {
return reg;
}
}
//kprintf("Region count is : %u\n",regionCount);
return NULL;
}
int test_pkcs5()
{
const char *p_key, *data;
u8 hmac[SHA512_DIGEST_SIZE];
const char *pass, *salt;
int i, dklen;
u8 dk[144];
/* test HMAC-SHA-512 */
for (i = 0; i < array_num(sha512_hmac_vectors); i++)
{
p_key = sha512_hmac_vectors[i].key;
data = sha512_hmac_vectors[i].data;
sha512_hmac(p_key, strlen(p_key), data, strlen(data), hmac);
if (memcmp(hmac, sha512_hmac_vectors[i].hmac, sizeof(hmac)) != 0) {
return 0;
}
}
/* test PKDBF2 */
for (i = 0; i < array_num(pkcs5_vectors); i++)
{
pass = pkcs5_vectors[i].password;
salt = pkcs5_vectors[i].salt;
dklen = pkcs5_vectors[i].dklen;
sha512_pkcs5_2(
pkcs5_vectors[i].i_count, pass, strlen(pass), salt, strlen(salt), dk, dklen);
if (memcmp(dk, pkcs5_vectors[i].key, dklen) != 0) {
return 0;
}
}
return 1;
}
int
as_check_region(struct addrspace *as, vaddr_t va)
{
int i;
struct region *region;
int len = array_num(as->as_regions);
for (i = 0; i < len; i++){
region = array_get(as->as_regions, i);
if (va >= region->base && va < (region->base + region->size)){
return region->permission;
}
}
// Can't find the addr in region, this is a segfault
return -1;
}
static
void
commandline_macros_cleanup(void)
{
unsigned i, num;
struct commandline_macro *cm;
num = array_num(&commandline_macros);
for (i=0; i<num; i++) {
cm = array_get(&commandline_macros, i);
dofree(cm, sizeof(*cm));
}
array_setsize(&commandline_macros, 0);
array_cleanup(&commandline_macros);
}
void filetable_empty(struct array* ft) {
int i;
for (i = array_num(ft) -1 ; i >=0 ; i--) {
struct filetable_entry* entry = (struct filetable_entry*) array_get(ft,
i);
filehandle_destroy(entry->ft_handle);
// free memory allocated for the entry
kfree(entry);
// remove the entry from the filetable
array_remove(ft, i);
}
}
void free_children(int ppid){
struct procinfo *cpi;
//struct procinfo *ppi = array_get(procinfotable, ppid);
for(unsigned int i = 0; i<array_num(procinfotable); i++){
cpi = array_get(procinfotable, i);
if(cpi == NULL){
continue;
}
if(cpi->parent_pid == ppid){
cv_destroy(cpi->waitpid_cv);
array_set(procinfotable, i, NULL);
kfree(cpi);
}
}
}
static
void
commandline_files_cleanup(void)
{
unsigned i, num;
struct commandline_file *cf;
num = array_num(&commandline_files);
for (i=0; i<num; i++) {
cf = array_get(&commandline_files, i);
if (cf != NULL) {
dofree(cf, sizeof(*cf));
}
}
array_setsize(&commandline_files, 0);
array_cleanup(&commandline_files);
}
static
void
apply_commandline_macros(void)
{
struct commandline_macro *cm;
unsigned i, num;
num = array_num(&commandline_macros);
for (i=0; i<num; i++) {
cm = array_get(&commandline_macros, i);
if (cm->expansion != NULL) {
macro_define_plain(&cm->where, cm->macro,
&cm->where2, cm->expansion);
} else {
macro_undef(cm->macro);
}
dofree(cm, sizeof(*cm));
}
array_setsize(&commandline_macros, 0);
}
int test_twofish256()
{
twofish256_key skey;
char tmp[16];
int i;
for (i = 0; i < array_num(twofish_vectors); i++)
{
twofish256_set_key(twofish_vectors[i].key, &skey);
twofish256_encrypt(twofish_vectors[i].plaintext, tmp, &skey);
if (memcmp(twofish_vectors[i].ciphertext, tmp, sizeof(tmp)) != 0) {
return 0;
}
twofish256_decrypt(twofish_vectors[i].ciphertext, tmp, &skey);
if (memcmp(twofish_vectors[i].plaintext, tmp, sizeof(tmp)) != 0) {
return 0;
}
}
return 1;
}
static
void
read_commandline_files(void)
{
struct commandline_file *cf;
unsigned i, num;
bool save = false;
num = array_num(&commandline_files);
for (i=0; i<num; i++) {
cf = array_get(&commandline_files, i);
array_set(&commandline_files, i, NULL);
if (cf->suppress_output) {
save = mode.do_output;
mode.do_output = false;
file_readquote(&cf->where, cf->name);
mode.do_output = save;
} else {
file_readquote(&cf->where, cf->name);
}
dofree(cf, sizeof(*cf));
}
array_setsize(&commandline_files, 0);
}
int _init_wizard_encrypt_pages(
HWND parent,
_wz_sheets *sheets,
_dnode *node
)
{
wchar_t *static_head[ ] =
{
L"# Choice iso-file",
L"# Format Options",
L"# Encryption Settings",
L"# Boot Settings",
L"# Volume Password",
L"# Encryption Progress"
};
HWND hwnd;
dc_conf dcfg;
int k;
int count = 0;
BOOL boot_device = (
_is_boot_device( &node->mnt.info )
);
BOOL force_small = (
boot_device && ( dc_get_conf_flags(&dcfg) == ST_OK ) && ( dcfg.load_flags & DST_SMALL_MEM )
);
while ( sheets[count].id != -1 )
{
HWND hwnd;
sheets[count].hwnd =
CreateDialog(
__hinst, MAKEINTRESOURCE(sheets[count].id), GetDlgItem(parent, IDC_TAB), _tab_proc
);
hwnd = sheets[count].hwnd;
EnumChildWindows( hwnd, __sub_enum, (LPARAM)NULL );
SetWindowText( GetDlgItem( hwnd, IDC_HEAD ), static_head[count] );
SendMessage( GetDlgItem( hwnd, IDC_HEAD ), (UINT)WM_SETFONT, (WPARAM)__font_bold, 0 );
sheets[count].first_tab_hwnd =
(
( sheets[count].first_tab_id != -1 ) ? GetDlgItem( hwnd, sheets[count].first_tab_id ) : HWND_NULL
);
count++;
}
///////////////////////////////////////////////////////////////
hwnd = sheets[WPAGE_ENC_FRMT].hwnd;
///////////////////////////////////////////////////////////////
/////// FORMAT OPTIONS PAGE ///////////////////////////////////
{
HWND h_fs = GetDlgItem(hwnd, IDC_COMBO_FS_LIST);
_sub_class( GetDlgItem(hwnd, IDC_CHECK_QUICK_FORMAT), SUB_STATIC_PROC, HWND_NULL );
_set_check( hwnd, IDC_CHECK_QUICK_FORMAT, FALSE );
for ( k = 0; k < array_num(fs_names); k++ )
{
SendMessage( h_fs, (UINT)CB_ADDSTRING, 0, (LPARAM)fs_names[k] );
}
SendMessage( h_fs, CB_SETCURSEL, 2, 0 );
}
///////////////////////////////////////////////////////////////
hwnd = sheets[WPAGE_ENC_CONF].hwnd;
///////////////////////////////////////////////////////////////
/////// ENCRYPTION SETTINGS PAGE //////////////////////////////
{
HWND h_combo_wipe = GetDlgItem(hwnd, IDC_COMBO_PASSES);
_init_combo( h_combo_wipe, wipe_modes, WP_NONE, FALSE, -1 );
EnableWindow( h_combo_wipe, node->dlg.act_type != ACT_ENCRYPT_CD);
EnableWindow( GetDlgItem(hwnd, IDC_STATIC_PASSES_LIST), node->dlg.act_type != ACT_ENCRYPT_CD );
_init_combo(
GetDlgItem(hwnd, IDC_COMBO_ALGORT), cipher_names, CF_AES, FALSE, -1
);
if ( force_small )
{
EnableWindow( GetDlgItem(hwnd, IDC_COMBO_ALGORT), FALSE );
SendMessage( GetDlgItem(hwnd, IDC_WIZ_CONF_WARNING), (UINT)WM_SETFONT, (WPARAM)__font_bold, 0 );
SetWindowText(
GetDlgItem(hwnd, IDC_WIZ_CONF_WARNING),
L"Your BIOS does not provide enough base memory,\n"
L"you can only use AES to encrypt the boot partition!"
);
}
for ( k = 0; k < array_num(combo_sel); k++ )
{
SendMessage( GetDlgItem(hwnd, combo_sel[k]), CB_SETCURSEL, 0, 0 );
}
}
///////////////////////////////////////////////////////////////
hwnd = sheets[WPAGE_ENC_BOOT].hwnd;
///////////////////////////////////////////////////////////////
/////// BOOT SETTINGS PAGE ////////////////////////////////////
{
int dsk_num = -1;
int rlt = _get_info_install_boot_page( &node->mnt.info, sheets, &dsk_num );
__lists[HENC_WIZARD_BOOT_DEVS] = GetDlgItem(hwnd, IDC_BOOT_DEVS);
_list_devices( __lists[HENC_WIZARD_BOOT_DEVS], TRUE, dsk_num );
SendMessage( GetDlgItem(hwnd, IDC_COMBO_BOOT_INST), (UINT)CB_ADDSTRING, 0, (LPARAM)L"Use external bootloader" );
if ( rlt != ST_OK )
{
SetWindowText( GetDlgItem(hwnd, IDC_WARNING), L"Bootable HDD not found!" );
SendMessage( GetDlgItem(hwnd, IDC_COMBO_BOOT_INST), CB_SETCURSEL, 0, 0 );
SendMessage( GetDlgItem(hwnd, IDC_WARNING), (UINT)WM_SETFONT, (WPARAM)__font_bold, 0 );
EnableWindow( GetDlgItem(hwnd, IDB_BOOT_PREF), TRUE );
} else {
SendMessage( GetDlgItem(hwnd, IDC_COMBO_BOOT_INST), (UINT)CB_ADDSTRING, 0, (LPARAM)L"Install to HDD" );
SendMessage( GetDlgItem(hwnd, IDC_COMBO_BOOT_INST), CB_SETCURSEL, 1, 0 );
}
}
///////////////////////////////////////////////////////////////
hwnd = sheets[WPAGE_ENC_PASS].hwnd;
///////////////////////////////////////////////////////////////
/////// VOLUME PASSWORD PAGE //////////////////////////////////
{
int kbd_layout;
_update_layout( node, -1, &kbd_layout );
_init_combo( GetDlgItem(hwnd, IDC_COMBO_KBLAYOUT), kb_layouts, kbd_layout, FALSE, -1 );
SetWindowText(GetDlgItem( hwnd, IDC_USE_KEYFILES), boot_device ? IDS_USE_KEYFILE : IDS_USE_KEYFILES );
_sub_class( GetDlgItem(hwnd, IDC_CHECK_SHOW), SUB_STATIC_PROC, HWND_NULL );
_set_check( hwnd, IDC_CHECK_SHOW, FALSE );
_sub_class( GetDlgItem(hwnd, IDC_USE_KEYFILES), SUB_STATIC_PROC, HWND_NULL );
_set_check( hwnd, IDC_USE_KEYFILES, FALSE );
SendMessage(
GetDlgItem( hwnd, IDP_BREAKABLE ),
PBM_SETBARCOLOR, 0, _cl( COLOR_BTNSHADOW, DARK_CLR-20 )
);
SendMessage(
GetDlgItem(hwnd, IDP_BREAKABLE),
PBM_SETRANGE, 0, MAKELPARAM(0, 193)
);
SetWindowText( GetDlgItem(hwnd, IDC_HEAD2), L"# Password Rating" );
SendMessage( GetDlgItem(hwnd, IDC_HEAD2), (UINT)WM_SETFONT, (WPARAM)__font_bold, 0 );
SendMessage( GetDlgItem(hwnd, IDE_PASS), EM_LIMITTEXT, MAX_PASSWORD, 0 );
SendMessage( GetDlgItem(hwnd, IDE_CONFIRM), EM_LIMITTEXT, MAX_PASSWORD, 0 );
}
///////////////////////////////////////////////////////////////
hwnd = sheets[WPAGE_ENC_PROGRESS].hwnd;
///////////////////////////////////////////////////////////////
/////// ENCRYPTION PROGRESS PAGE //////////////////////////////
{
_colinfo _progress_iso_crypt_headers[ ] =
{
{ STR_HEAD_NO_ICONS, 100, LVCFMT_LEFT, FALSE },
{ STR_HEAD_NO_ICONS, 120, LVCFMT_LEFT, FALSE },
{ STR_NULL }
};
HWND h_list = GetDlgItem( hwnd, IDC_ISO_PROGRESS );
int rlt = ST_OK;
int j = 0;
ListView_SetBkColor( h_list, GetSysColor(COLOR_BTNFACE) );
_init_list_headers( h_list, _progress_iso_crypt_headers );
while ( wcslen(_act_table_items[j]) > 0 )
{
_list_insert_item( h_list, j, 0, _act_table_items[j], 0 );
if ( j != 2 ) ListView_SetItemText( h_list, j, 1, STR_EMPTY );
j++;
}
SendMessage(
GetDlgItem( hwnd, IDC_PROGRESS_ISO ),
PBM_SETBARCOLOR, 0, _cl(COLOR_BTNSHADOW, DARK_CLR-20)
);
SendMessage(
GetDlgItem( hwnd, IDC_PROGRESS_ISO ),
PBM_SETRANGE, 0, MAKELPARAM(0, PRG_STEP)
);
}
return count;
}
INT_PTR
CALLBACK
_options_dlg_proc(
HWND hwnd,
UINT message,
WPARAM wparam,
LPARAM lparam
)
{
_ctl_init ctl_chk_general[ ] =
{
{ STR_NULL, IDC_AUTO_MOUNT_ON_BOOT, CONF_AUTOMOUNT_BOOT },
{ STR_NULL, IDC_EXPLORER_ON_MOUNT, CONF_EXPLORER_MOUNT },
{ STR_NULL, IDC_CACHE_PASSWORDS, CONF_CACHE_PASSWORD },
{ STR_NULL, IDC_UNMOUNT_LOGOFF, CONF_DISMOUNT_LOGOFF },
{ STR_NULL, IDC_FORCE_UNMOUNT, CONF_FORCE_DISMOUNT },
{ STR_NULL, IDC_WIPE_LOGOFF, CONF_WIPEPAS_LOGOFF },
{ STR_NULL, IDC_AUTO_START, CONF_AUTO_START }
};
_ctl_init ctl_chk_extended[ ] =
{
{ STR_NULL, IDC_HARD_CRYPTO_SUPPORT, CONF_HW_CRYPTO },
{ STR_NULL, IDC_HIDE_FILES, CONF_HIDE_DCSYS },
{ STR_NULL, IDC_DISABLE_TRIM, CONF_DISABLE_TRIM },
{ STR_NULL, IDC_SSD_OPTIMIZATION, CONF_ENABLE_SSD_OPT }
};
_ctl_init static_head_general[ ] =
{
{ L"# Mount Settings", IDC_HEAD1, 0 },
{ L"# Password Caching", IDC_HEAD2, 0 },
{ L"# Boot Options", IDC_HEAD3, 0 }
};
_ctl_init static_head_extended[ ] =
{
{ L"# Extended Settings", IDC_HEAD1, 0 }
};
WORD code = LOWORD(wparam);
WORD id = LOWORD(wparam);
DWORD _flags = 0;
DWORD _hotkeys[HOTKEYS] = { 0 };
_wnd_data *wnd;
int check = 0;
int k = 0;
switch ( message )
{
case WM_INITDIALOG :
{
TCITEM tab_item = { TCIF_TEXT };
HWND h_tab = GetDlgItem( hwnd, IDT_TAB );
_tab_data *d_tab = malloc(sizeof(_tab_data));
wnd = _sub_class(
h_tab, SUB_NONE,
CreateDialog( __hinst, MAKEINTRESOURCE(DLG_CONF_GENERAL), GetDlgItem(hwnd, IDC_TAB), _tab_proc ),
CreateDialog( __hinst, MAKEINTRESOURCE(DLG_CONF_EXTNDED), GetDlgItem(hwnd, IDC_TAB), _tab_proc ),
CreateDialog( __hinst, MAKEINTRESOURCE(DLG_CONF_HOTKEYS), GetDlgItem(hwnd, IDC_TAB), _tab_proc ),
HWND_NULL
);
memset(d_tab, 0, sizeof(_tab_data));
d_tab->active = wnd->dlg[0];
wnd_set_long(hwnd, GWL_USERDATA, d_tab);
{
for ( k = 0; k < array_num(ctl_chk_general); k++ )
{
_sub_class( GetDlgItem( wnd->dlg[0], ctl_chk_general[k].id ), SUB_STATIC_PROC, HWND_NULL );
_set_check( wnd->dlg[0], ctl_chk_general[k].id, __config.conf_flags & ctl_chk_general[k].val );
}
for ( k = 0; k < array_num(ctl_chk_extended); k++ )
{
_sub_class( GetDlgItem( wnd->dlg[1], ctl_chk_extended[k].id ), SUB_STATIC_PROC, HWND_NULL );
_set_check( wnd->dlg[1], ctl_chk_extended[k].id, __config.conf_flags & ctl_chk_extended[k].val );
}
if ( ! (__config.load_flags & DST_HW_CRYPTO) )
{
wchar_t s_ch_label[MAX_PATH] = { 0 };
HWND h_check = GetDlgItem( wnd->dlg[1], IDC_HARD_CRYPTO_SUPPORT );
EnableWindow( h_check, FALSE );
GetWindowText( h_check, s_ch_label, sizeof_w(s_ch_label) );
wcscat( s_ch_label, L" (not supported)" );
SetWindowText( h_check, s_ch_label );
}
for ( k = 0; k < array_num(static_head_general); k++ )
{
SetWindowText(GetDlgItem(wnd->dlg[0], static_head_general[k].id), static_head_general[k].display);
SendMessage(GetDlgItem(wnd->dlg[0], static_head_general[k].id), (UINT)WM_SETFONT, (WPARAM)__font_bold, 0);
}
for ( k = 0; k < array_num(static_head_extended); k++ )
{
SetWindowText(GetDlgItem(wnd->dlg[1], static_head_extended[k].id), static_head_extended[k].display);
SendMessage(GetDlgItem(wnd->dlg[1], static_head_extended[k].id), (UINT)WM_SETFONT, (WPARAM)__font_bold, 0);
}
SendMessage(
wnd->dlg[0], WM_USER_CLICK, (WPARAM)GetDlgItem(wnd->dlg[0], IDC_AUTO_START), 0
);
_sub_class(
GetDlgItem(wnd->dlg[2], IDC_KEY_USEEXT), SUB_STATIC_PROC, HWND_NULL
);
k = 0;
while ( hotks_edit[k].id != -1 )
{
wchar_t key[200] = { 0 };
_sub_class(
GetDlgItem(wnd->dlg[2], hotks_edit[k].id), SUB_KEY_PROC, HWND_NULL
);
_sub_class(
GetDlgItem(wnd->dlg[2], hotks_chk[k].id), SUB_STATIC_PROC, HWND_NULL
);
_set_check( wnd->dlg[2], hotks_chk[k].id, __config.hotkeys[k] );
SendMessage(
wnd->dlg[2], WM_USER_CLICK, (WPARAM)GetDlgItem(wnd->dlg[2], hotks_chk[k].id), 0
);
_key_name(HIWORD( __config.hotkeys[k]), LOWORD(__config.hotkeys[k]), key );
SetWindowText(GetDlgItem(wnd->dlg[2], hotks_edit[k].id), key);
((_wnd_data *)wnd_get_long(
GetDlgItem(wnd->dlg[2], hotks_edit[k].id), GWL_USERDATA)
)->vk = __config.hotkeys[k];
k++;
}
}
tab_item.pszText = L"General";
TabCtrl_InsertItem(h_tab, 0, &tab_item);
tab_item.pszText = L"Extended";
TabCtrl_InsertItem(h_tab, 1, &tab_item);
tab_item.pszText = L"Hot Keys";
TabCtrl_InsertItem(h_tab, 2, &tab_item);
{
k = 1;
while ( wnd->dlg[k] != 0 )
{
ShowWindow( wnd->dlg[k], SW_HIDE );
k++;
}
}
SetForegroundWindow( hwnd );
return 1L;
}
break;
case WM_NOTIFY :
{
if ( wparam == IDT_TAB )
{
if ( ((NMHDR *)lparam)->code == TCN_SELCHANGE )
{
HWND h_tab = GetDlgItem(hwnd, IDT_TAB);
if ( !_is_curr_in_group(h_tab) )
{
_change_page( h_tab, TabCtrl_GetCurSel(h_tab) );
}
}
}
}
break;
case WM_COMMAND :
{
/*
switch (id)
{
case ID_SHIFT_TAB :
case ID_TAB :
{
HWND h_current = GetFocus( );
HWND h_next = GetNextDlgTabItem( sheets[index].hwnd, h_current, id == ID_SHIFT_TAB );
SetFocus( h_next );
}
break;
*/
if ( (id == IDOK) || (id == IDCANCEL) )
{
wnd = wnd_get_long( GetDlgItem(hwnd, IDT_TAB), GWL_USERDATA );
if ( wnd )
{
for ( k = 0; k < array_num(ctl_chk_general); k++ )
{
_flags |= _get_check(wnd->dlg[0], ctl_chk_general[k].id) ? ctl_chk_general[k].val : FALSE;
}
for ( k = 0; k < array_num(ctl_chk_extended); k++ )
{
_flags |= _get_check(wnd->dlg[1], ctl_chk_extended[k].id) ? ctl_chk_extended[k].val : FALSE;
}
k = 0;
while ( hotks_edit[k].id != -1 )
{
if ( _get_check(wnd->dlg[2], hotks_chk[k].id) )
{
_hotkeys[k] = (
(_wnd_data *)wnd_get_long(GetDlgItem(wnd->dlg[2], hotks_edit[k].id), GWL_USERDATA)
)->vk;
}
k++;
}
}
if ( id == IDCANCEL ) check = TRUE;
if ( id == IDOK )
{
_unset_hotkeys(__config.hotkeys);
check = _check_hotkeys(wnd->dlg[0], _hotkeys);
if ( check )
{
if ( _hotkeys[3] && !__config.hotkeys[3] ) {
if (! __msg_w( hwnd, L"Set Hotkey for call BSOD?" ) )
{
_hotkeys[3] = 0;
}
}
if ( (_flags & CONF_AUTO_START) != (__config.conf_flags & CONF_AUTO_START) )
{
autorun_set(_flags & CONF_AUTO_START);
}
__config.conf_flags = _flags;
memcpy(&__config.hotkeys, &_hotkeys, sizeof(DWORD)*HOTKEYS);
dc_save_conf(&__config);
}
_set_hotkeys(hwnd, __config.hotkeys, FALSE);
}
if ( check )
{
EndDialog (hwnd, id);
}
return 1L;
}
}
break;
case WM_DESTROY :
{
wnd = wnd_get_long( GetDlgItem(hwnd, IDT_TAB), GWL_USERDATA );
if ( wnd )
{
for ( k = 0; k < array_num(ctl_chk_general); k++ )
{
__unsub_class(GetDlgItem(wnd->dlg[0], ctl_chk_general[k].id));
}
for ( k = 0; k < array_num(ctl_chk_extended); k++ )
{
__unsub_class(GetDlgItem(wnd->dlg[1], ctl_chk_extended[k].id));
}
__unsub_class(GetDlgItem(wnd->dlg[1], IDC_KEY_USEEXT));
k = 0;
while ( hotks_edit[k].id != -1 )
{
__unsub_class(GetDlgItem(wnd->dlg[2], hotks_edit[k].id));
__unsub_class(GetDlgItem(wnd->dlg[2], hotks_chk[k].id));
k++;
}
}
__unsub_class(GetDlgItem(hwnd, IDT_TAB));
}
break;
default :
{
int rlt = _draw_proc(message, lparam);
if ( rlt != -1 )
{
return rlt;
}
}
}
return 0L;
}
INT_PTR
CALLBACK
_main_dialog_proc(
HWND hwnd,
UINT message,
WPARAM wparam,
LPARAM lparam
)
{
WORD id = LOWORD(wparam);
WORD code = HIWORD(wparam);
_wnd_data *wnd;
_dnode *sel;
_dmnt *mnt;
int k = 0;
switch ( message )
{
case WM_INITDIALOG :
{
memset( __lists, HWND_NULL, sizeof(__lists) );
__lists[HMAIN_DRIVES] = GetDlgItem( hwnd, IDC_DISKDRIVES );
__dlg = hwnd;
_init_main_dlg( hwnd );
_load_diskdrives( hwnd, &__drives, _list_volumes(0) );
{
TCITEM tab_item = { TCIF_TEXT };
HWND h_tab = GetDlgItem(hwnd, IDT_INFO);
_tab_data *d_tab = malloc(sizeof(_tab_data));
zeroauto( d_tab, sizeof(_tab_data) );
d_tab->curr_tab = 1;
wnd_set_long( hwnd, GWL_USERDATA, d_tab );
wnd = _sub_class(
h_tab, SUB_NONE,
CreateDialog( __hinst, MAKEINTRESOURCE(DLG_MAIN_INFO), GetDlgItem(hwnd, IDC_MAIN_TAB), _tab_proc ),
CreateDialog( __hinst, MAKEINTRESOURCE(DLG_MAIN_ACTION), GetDlgItem(hwnd, IDC_MAIN_TAB), _tab_proc ),
HWND_NULL
);
{
__lists[HMAIN_INFO] = GetDlgItem( wnd->dlg[0], IDC_INF_TABLE );
__lists[HMAIN_ACT] = GetDlgItem( wnd->dlg[1], IDC_ACT_TABLE );
}
{
__dlg_act_info = wnd->dlg[1];
_list_insert_col( __lists[HMAIN_INFO], 380 );
_list_insert_col( __lists[HMAIN_INFO], 90 );
while (
_list_insert_item( __lists[HMAIN_INFO], k, 0, _info_table_items[k], 0 )
) k++;
_set_header_text(
__lists[HMAIN_INFO], 0, STR_HEAD_NO_ICONS, sizeof_w(STR_HEAD_NO_ICONS)
);
_list_insert_col( __lists[HMAIN_ACT], 90 );
_list_insert_col( __lists[HMAIN_ACT], 70 );
_list_insert_col( __lists[HMAIN_ACT], 85 );
_list_insert_col( __lists[HMAIN_ACT], 50 );
_list_insert_item( __lists[HMAIN_ACT], 0, 0, _act_table_items[0], 0 );
ListView_SetItemText( __lists[HMAIN_ACT], 0, 2, _act_table_items[3] );
_list_insert_item( __lists[HMAIN_ACT], 1, 0, _act_table_items[1], 0 );
ListView_SetItemText( __lists[HMAIN_ACT], 1, 2, _act_table_items[4] );
_init_combo(
GetDlgItem( __dlg_act_info, IDC_COMBO_PASSES), wipe_modes, WP_NONE, FALSE, -1
);
SendMessage(
GetDlgItem( __dlg_act_info, IDC_PROGRESS ),
PBM_SETBARCOLOR, 0, _cl( COLOR_BTNSHADOW, DARK_CLR - 20 )
);
SendMessage(
GetDlgItem( __dlg_act_info, IDC_PROGRESS ),
PBM_SETRANGE, 0, MAKELPARAM(0, PRG_STEP)
);
}
tab_item.pszText = L"Info";
TabCtrl_InsertItem( h_tab, 0, &tab_item );
{
NMHDR mhdr = { 0, 0, TCN_SELCHANGE };
TabCtrl_SetCurSel( h_tab, 0 );
SendMessage(hwnd, WM_NOTIFY, IDT_INFO, (LPARAM)&mhdr);
}
}
SendMessage( hwnd, WM_SYSCOLORCHANGE, 0, 0 );
_set_timer( MAIN_TIMER, TRUE, TRUE );
_set_timer( RAND_TIMER, TRUE, FALSE );
_set_timer( POST_TIMER, TRUE, FALSE );
return 0L;
}
break;
case WM_WINDOWPOSCHANGED :
{
WINDOWPOS *pos = (WINDOWPOS *)lparam;
int flags = pos->flags;
_dlg_right = pos->cx + pos->x;
_dlg_bottom = pos->cy + pos->y;
_dlg_left = pos->x;
if ( ( flags & SWP_SHOWWINDOW ) || ( flags & SWP_HIDEWINDOW ) )
{
_set_timer( MAIN_TIMER, flags & SWP_SHOWWINDOW, TRUE );
}
return 0L;
}
break;
case WM_ENTERSIZEMOVE :
{
//_middle_ctl(
// GetDlgItem(hwnd, IDC_DISKDRIVES),
// GetDlgItem(hwnd, IDC_RESIZING),
// TRUE
// );
//ShowWindow(GetDlgItem(hwnd, IDC_DISKDRIVES), SW_HIDE);
return 0L;
}
break;
case WM_EXITSIZEMOVE :
{
//ShowWindow(GetDlgItem(hwnd, IDC_DISKDRIVES), SW_SHOW);
return 0L;
}
break;
case WM_SIZING :
{
RECT *rect = ((RECT *)lparam);
rect->right = _dlg_right;
rect->left = _dlg_left;
if ( rect->bottom - rect->top < MAIN_DLG_MIN_HEIGHT )
{
rect->bottom = rect->top + MAIN_DLG_MIN_HEIGHT;
}
return 1L;
}
break;
case WM_SIZE :
{
int height = HIWORD(lparam);
int width = LOWORD(lparam);
int k;
_size_move_ctls _resize[ ] =
{
{ -1, IDC_DISKDRIVES, FALSE, 0, 0 },
{ -1, IDC_STATIC_LIST, TRUE, 0, 0 },
{ -1, IDC_STATIC_RIGHT, TRUE, 0, 0 }
};
_size_move_ctls _move[ ] =
{
{ IDC_STATIC_LIST, IDC_MAIN_TAB, TRUE, 0, 6 },
{ IDC_STATIC_LIST, IDT_INFO, FALSE, 0, 3 },
{ IDT_INFO, IDC_LINE_BOTTOM, TRUE, 0, 2 }
};
{
int c_size_hide = _main_headers[1].width;
int c_size_show = c_size_hide - GetSystemMetrics(SM_CXVSCROLL);
int c_size_curr = ListView_GetColumnWidth( __lists[HMAIN_DRIVES], 1 );
if ( GetWindowLong(__lists[HMAIN_DRIVES], GWL_STYLE) & WS_VSCROLL )
{
if ( c_size_curr != c_size_show ) ListView_SetColumnWidth( __lists[HMAIN_DRIVES], 1, c_size_show );
} else {
if ( c_size_curr != c_size_hide ) ListView_SetColumnWidth( __lists[HMAIN_DRIVES], 1, c_size_hide );
}
}
if ( height == 0 || width == 0 )
{
return 0L;
}
for ( k = 0; k < array_num(_resize); k++ )
{
_resize_ctl(
GetDlgItem(hwnd, _resize[k].id), height - _dlg_height, 0, _resize[k].val
);
}
_dlg_height = height;
for ( k = 0; k < array_num(_move); k++ )
{
_relative_move(
GetDlgItem( hwnd, _move[k].anchor ), GetDlgItem( hwnd, _move[k].id ), _move[k].dy, _move[k].dy, _move[k].val
);
InvalidateRect( GetDlgItem( hwnd, _move[k].id ), NULL, TRUE );
}
_middle_ctl(
GetDlgItem( hwnd, IDC_DISKDRIVES ),
GetDlgItem( hwnd, IDC_RESIZING ),
TRUE
);
return 0L;
}
break;
case WM_SYSCOMMAND :
{
if ( wparam == SC_MINIMIZE || wparam == SC_RESTORE )
{
_set_timer( MAIN_TIMER, wparam == SC_RESTORE, TRUE );
}
return 0L;
}
break;
case WM_APP + WM_APP_SHOW :
{
ShowWindow( hwnd, SW_HIDE );
}
break;
case WM_NOTIFY :
{
if ( wparam == IDT_INFO )
{
if ( ((NMHDR *)lparam)->code == TCN_SELCHANGE )
{
HWND h_tab = GetDlgItem( hwnd, IDT_INFO );
if ( !_is_curr_in_group(h_tab) )
{
_change_page( h_tab, TabCtrl_GetCurSel(h_tab) );
}
}
}
if ( wparam == IDC_DISKDRIVES )
{
sel = pv( _get_sel_item( __lists[HMAIN_DRIVES] ) );
mnt = &sel->mnt;
if ( ((NMHDR *)lparam)->code == LVN_ITEMCHANGED &&
(((NMLISTVIEW *)lparam)->uNewState & LVIS_FOCUSED ) )
{
_update_info_table( FALSE );
_activate_page( );
_refresh_menu( );
return 1L;
}
if ( ((NMHDR *)lparam)->code == LVN_ITEMACTIVATE )
{
BOOL mount =
( !(sel->mnt.info.status.flags & F_ENABLED) ) &&
( sel->mnt.fs[0] == '\0' );
if (! mount )
{
if (! sel->is_root ) __execute( mnt->info.status.mnt_point );
} else {
_menu_mount( sel );
}
}
switch( ((NM_LISTVIEW *)lparam)->hdr.code )
{
case LVN_KEYDOWN :
{
WORD key = ((NMLVKEYDOWN *)lparam)->wVKey;
int item = ListView_GetSelectionMark( __lists[HMAIN_DRIVES] );
switch ( key )
{
case VK_UP: item -= 1; break;
case VK_DOWN: item += 1; break;
}
if ( _is_root_item(_get_item_index( __lists[HMAIN_DRIVES], item )) )
{
ListView_SetItemState( __lists[HMAIN_DRIVES], item, LVIS_FOCUSED, TRUE );
}
if ( key != VK_APPS )
{
break;
}
}
case NM_RCLICK :
{
int item;
HMENU h_popup = CreatePopupMenu( );
_dact *act = _create_act_thread( sel, -1, -1 );
_update_info_table( FALSE );
_activate_page( );
_set_timer(MAIN_TIMER, FALSE, FALSE);
_refresh_menu( );
if ( ListView_GetSelectedCount( __lists[HMAIN_DRIVES] ) &&
!_is_root_item((LPARAM)sel) && _is_active_item((LPARAM)sel)
)
{
if ( mnt->info.status.flags & F_ENABLED )
{
if ( mnt->info.status.flags & F_CDROM )
{
AppendMenu( h_popup, MF_STRING, ID_VOLUMES_UNMOUNT, IDS_UNMOUNT );
} else
{
if ( mnt->info.status.flags & F_FORMATTING )
{
AppendMenu( h_popup, MF_STRING, ID_VOLUMES_FORMAT, IDS_FORMAT );
} else
{
if ( IS_UNMOUNTABLE(&mnt->info.status) )
{
AppendMenu( h_popup, MF_STRING, ID_VOLUMES_UNMOUNT, IDS_UNMOUNT );
}
if ( !(mnt->info.status.flags & F_SYNC) )
{
AppendMenu( h_popup, MF_SEPARATOR, 0, NULL );
AppendMenu( h_popup, MF_STRING, ID_VOLUMES_CHANGEPASS, IDS_CHPASS );
}
if ( !(act && act->status == ACT_RUNNING) )
{
if ( mnt->info.status.flags & F_SYNC )
{
if ( GetMenuItemCount(h_popup) > 0 )
{
AppendMenu( h_popup, MF_SEPARATOR, 0, NULL );
}
AppendMenu( h_popup, MF_STRING, ID_VOLUMES_ENCRYPT, IDS_ENCRYPT );
} else
{
if ( GetMenuItemCount(h_popup) > 0 )
{
AppendMenu( h_popup, MF_SEPARATOR, 0, NULL );
}
AppendMenu( h_popup, MF_STRING, ID_VOLUMES_REENCRYPT, IDS_REENCRYPT );
}
AppendMenu( h_popup, MF_STRING, ID_VOLUMES_DECRYPT, IDS_DECRYPT );
}
}
}
} else
{
if ( mnt->info.status.flags & F_CDROM )
{
if ( *mnt->fs == '\0' )
{
AppendMenu( h_popup, MF_STRING, ID_VOLUMES_MOUNT, IDS_MOUNT );
}
} else {
if ( *mnt->fs == '\0' )
{
AppendMenu( h_popup, MF_STRING, ID_VOLUMES_MOUNT, IDS_MOUNT );
} else {
AppendMenu( h_popup, MF_STRING, ID_VOLUMES_ENCRYPT, IDS_ENCRYPT );
}
if ( IS_UNMOUNTABLE(&mnt->info.status) )
{
AppendMenu( h_popup, MF_SEPARATOR, 0, NULL );
AppendMenu( h_popup, MF_STRING, ID_VOLUMES_FORMAT, IDS_FORMAT );
}
}
}
}
/*
_state_menu(
popup, sel && sel->status.flags & F_LOCKED ? MF_GRAYED : MF_ENABLED
);
*/
item = TrackPopupMenu(
h_popup,
TPM_RETURNCMD | TPM_LEFTBUTTON,
LOWORD(GetMessagePos( )),
HIWORD(GetMessagePos( )),
0,
hwnd,
NULL
);
DestroyMenu( h_popup );
switch ( item )
{
case ID_VOLUMES_DECRYPT : _menu_decrypt(sel); break;
case ID_VOLUMES_ENCRYPT : _menu_encrypt(sel); break;
case ID_VOLUMES_FORMAT : _menu_format(sel); break;
case ID_VOLUMES_REENCRYPT : _menu_reencrypt(sel); break;
case ID_VOLUMES_UNMOUNT : _menu_unmount(sel); break;
case ID_VOLUMES_MOUNT : _menu_mount(sel); break;
case ID_VOLUMES_CHANGEPASS : _menu_change_pass(sel); break;
}
if ( item )
{
_refresh( TRUE );
}
_set_timer( MAIN_TIMER, TRUE, TRUE );
}
break;
case NM_CLICK :
{
sel = pv(
_get_item_index( __lists[HMAIN_DRIVES], ((NM_LISTVIEW *)lparam)->iItem )
);
_update_info_table( FALSE );
_activate_page( );
_refresh_menu( );
}
break;
}
}
if ( ((NMHDR *)lparam)->code == HDN_ITEMCHANGED )
{
InvalidateRect( __lists[HMAIN_DRIVES], NULL, TRUE );
}
if ( ((NMHDR *)lparam)->code == HDN_ITEMCHANGING )
{
return 0L;
}
if ( ((NMHDR *)lparam)->code == HDN_BEGINTRACK )
{
return 1L;
}
}
break;
case WM_COMMAND:
{
_dnode *node = pv( _get_sel_item( __lists[HMAIN_DRIVES] ) );
switch (id)
{
case ID_SHIFT_TAB :
case ID_TAB :
{
HWND h_current = GetFocus( );
HWND h_next = GetNextDlgTabItem( hwnd, h_current, id == ID_SHIFT_TAB );
SetFocus( h_next );
}
break;
case ID_TOOLS_DRIVER :
{
if ( __msg_q( __dlg, L"Remove DiskCryptor driver?") )
{
int rlt;
if ( (rlt = _drv_action(DA_REMOVE, 0)) != ST_OK )
{
__error_s( __dlg, L"Error remove DiskCryptor driver", rlt );
} else {
return 0L;
}
}
}
break;
case ID_TOOLS_BENCHMARK : _dlg_benchmark( __dlg ); break;
case ID_HELP_ABOUT : _dlg_about( __dlg ); break;
case ID_HOMEPAGE : __execute( DC_HOMEPAGE ); break;
case ID_EXIT :
{
SendMessage( hwnd, WM_CLOSE, 0, 1 );
}
break;
case IDC_BTN_WIZARD : _menu_wizard(node); break;
case ID_VOLUMES_DELETE_MNTPOINT :
{
wchar_t *mnt_point = node->mnt.info.status.mnt_point;
if ( __msg_q( __dlg, L"Are you sure you want to delete mount point [%s]?", mnt_point ) )
{
_set_trailing_slash(mnt_point);
DeleteVolumeMountPoint(mnt_point);
}
}
break;
case IDC_BTN_DECRYPT_ :
case ID_VOLUMES_DECRYPT : _menu_decrypt( node ); break;
case IDC_BTN_ENCRYPT_ :
case ID_VOLUMES_ENCRYPT : _menu_encrypt( node ); break;
case ID_VOLUMES_MOUNTALL :
case IDC_BTN_MOUNTALL_ : _menu_mountall( ); break;
case ID_VOLUMES_DISMOUNTALL :
case IDC_BTN_UNMOUNTALL_ : _menu_unmountall( ); break;
case ID_VOLUMES_DISMOUNT : _menu_unmount( node ); break;
case ID_VOLUMES_MOUNT : _menu_mount( node ); break;
case ID_VOLUMES_FORMAT : _menu_format(node); break;
case ID_VOLUMES_REENCRYPT : _menu_reencrypt( node ); break;
case ID_TOOLS_SETTINGS : _dlg_options( __dlg ); break;
case ID_BOOT_OPTIONS : _dlg_config_loader( __dlg, FALSE ); break;
case ID_VOLUMES_CHANGEPASS : _menu_change_pass( node ); break;
case ID_TOOLS_CLEARCACHE : _menu_clear_cache( ); break;
case ID_VOLUMES_BACKUPHEADER : _menu_backup_header( node ); break;
case ID_VOLUMES_RESTOREHEADER : _menu_restore_header( node ); break;
case ID_TOOLS_ENCRYPT_CD: _menu_encrypt_cd( ); break;
}
switch ( id ) {
case IDC_BTN_MOUNT_:
{
node->mnt.info.status.flags & F_ENABLED ?
_menu_unmount(node) :
_menu_mount(node);
}
break;
case ID_TOOLS_BSOD :
{
if ( __msg_q( __dlg, L"Crash?" ) )
{
dc_get_bsod( );
}
}
break;
}
if ( id == IDCANCEL )
{
ShowWindow(hwnd, SW_HIDE);
}
_refresh(TRUE);
}
break;
case WM_CLOSE :
{
if ( lparam )
{
_tray_icon(FALSE);
EndDialog(hwnd, 0);
ExitProcess(0);
} else {
ShowWindow(hwnd, SW_HIDE);
}
return 0L;
}
break;
case WM_DESTROY :
{
PostQuitMessage(0);
return 0L;
}
break;
case WM_HOTKEY :
{
switch (wparam)
{
case 0 :
{
int mount_cnt;
dc_mount_all(NULL, &mount_cnt, 0);
}
break;
case 1 : dc_unmount_all( ); break;
case 2 : dc_clean_pass_cache( ); break;
case 3 : dc_get_bsod( ); break;
}
return 1L;
}
break;
case WM_ENDSESSION :
{
if ( lparam & ENDSESSION_LOGOFF )
{
if ( __config.conf_flags & CONF_DISMOUNT_LOGOFF )
{
dc_unmount_all( );
}
if ( __config.conf_flags & CONF_WIPEPAS_LOGOFF )
{
dc_clean_pass_cache( );
}
}
}
break;
case WM_SYSCOLORCHANGE :
{
COLORREF cl_light = _cl( COLOR_BTNFACE, LGHT_CLR );
COLORREF cl_button = GetSysColor( COLOR_BTNFACE );
int k;
for ( k = 0; k < array_num(__lists); k++ )
{
if ( ( __lists[k] != HWND_NULL ) && ( __lists[k] != NULL ) )
{
ListView_SetBkColor( __lists[k], cl_button );
ListView_SetTextBkColor( __lists[k], cl_button );
ListView_SetExtendedListViewStyle( __lists[k], LVS_EX_FULLROWSELECT );
if ( !IsWindowEnabled( __lists[k] ) )
{
// EnableWindow( __lists[k], TRUE );
// EnableWindow( __lists[k], FALSE );
}
}
}
TreeView_SetBkColor( GetDlgItem(hwnd, IDC_TREE), cl_light );
ListView_SetBkColor( __lists[HMAIN_DRIVES], cl_light );
ListView_SetTextBkColor( __lists[HMAIN_DRIVES], cl_light );
ListView_SetExtendedListViewStyle( __lists[HMAIN_DRIVES], LVS_EX_FULLROWSELECT );
ListView_SetImageList( __lists[HMAIN_DRIVES], __dsk_img, LVSIL_SMALL );
}
break;
case WM_APP + WM_APP_TRAY :
{
switch ( lparam )
{
case WM_LBUTTONDOWN :
{
BOOL show = !IsWindowVisible(hwnd);
ShowWindow(hwnd, show ? SW_SHOW : SW_HIDE);
if ( show )
{
SetForegroundWindow(hwnd);
}
}
break;
case WM_RBUTTONDOWN :
{
POINT pt; int item;
HMENU menu = CreatePopupMenu( );
AppendMenu( menu, MF_STRING, ID_VOLUMES_UNMOUNTALL, IDS_UNMOUNTALL );
AppendMenu( menu, MF_STRING, ID_VOLUMES_MOUNTALL, IDS_MOUNTALL );
AppendMenu( menu, MF_SEPARATOR, 0, NULL );
AppendMenu( menu, MF_STRING, ID_TOOLS_SETTINGS, IDS_SETTINGS );
AppendMenu( menu, MF_STRING, ID_HELP_ABOUT, IDS_ABOUT );
AppendMenu( menu, MF_SEPARATOR, 0, NULL );
AppendMenu( menu, MF_STRING, ID_EXIT, IDS_EXIT );
GetCursorPos(&pt);
SetForegroundWindow( hwnd );
item = TrackPopupMenu ( menu,
TPM_RETURNCMD | TPM_LEFTALIGN | TPM_BOTTOMALIGN | TPM_RIGHTBUTTON,
pt.x, pt.y, 0, hwnd,
NULL
);
DestroyMenu( menu );
switch (item) {
case ID_VOLUMES_UNMOUNTALL : _menu_unmountall( ); break;
case ID_VOLUMES_MOUNTALL : _menu_mountall( ); break;
case ID_HELP_ABOUT : _dlg_about( HWND_DESKTOP ); break;
case ID_TOOLS_SETTINGS : _dlg_options( __dlg ); break;
case ID_EXIT :
{
SendMessage(hwnd, WM_CLOSE, 0, 1);
}
break;
}
}
break;
}
}
break;
default:
{
int rlt = _draw_proc( message, lparam );
if (rlt != -1)
{
return rlt;
}
}
}
return 0L;
}
unsigned int
heap_getsize(struct heap* h) {
assert(h != NULL);
ASSERT_HEAP(h);
return array_num(h->vals);
}
int
heap_isempty(struct heap* h) {
assert(h != NULL);
ASSERT_HEAP(h);
return (array_num(h->vals) == 0);
}
void
heap_assertvalid(struct heap* h) {
assert(h != NULL);
ASSERT_HEAP(h);
assert_heap_property(h->vals, 0, array_num(h->vals), h->comparator);
}
int getSize(struct fdManager * manager){
return array_num(manager->fdm_descriptors);
}
int test_aes256()
{
char tmp[16];
aes256_key skey;
int i;
#ifndef SMALL_CODE
u32 old_p;
#endif
#ifdef SMALL_CODE
/* initialize AES tables */
aes256_gentab();
#else
/* allow execute code from key buffer */
if (VirtualProtect(&skey, sizeof(skey), PAGE_EXECUTE_READWRITE, &old_p) == 0) {
return 0;
}
#endif
/* test basic assembler inmpementation */
for (i = 0; i < array_num(aes256_vectors); i++)
{
#ifdef SMALL_CODE
aes256_set_key(aes256_vectors[i].key, &skey);
aes256_encrypt(aes256_vectors[i].plaintext, tmp, &skey);
#else
aes256_asm_set_key(aes256_vectors[i].key, &skey);
aes256_asm_encrypt(aes256_vectors[i].plaintext, tmp, &skey);
#endif
if (memcmp(aes256_vectors[i].ciphertext, tmp, sizeof(tmp)) != 0) {
return 0;
}
#ifdef SMALL_CODE
aes256_decrypt(aes256_vectors[i].ciphertext, tmp, &skey);
#else
aes256_asm_decrypt(aes256_vectors[i].ciphertext, tmp, &skey);
#endif
if (memcmp(aes256_vectors[i].plaintext, tmp, sizeof(tmp)) != 0) {
return 0;
}
#if !defined(SMALL_CODE) || !defined(_M_X64)
/* test AES with VIA Padlock API */
if (aes256_padlock_available() != 0)
{
#ifdef SMALL_CODE
aes256_padlock_encrypt(aes256_vectors[i].plaintext, tmp, &skey);
#else
aes256_padlock_encrypt(aes256_vectors[i].plaintext, tmp, 1, &skey);
#endif
if (memcmp(aes256_vectors[i].ciphertext, tmp, sizeof(tmp)) != 0) {
return 0;
}
#ifdef SMALL_CODE
aes256_padlock_decrypt(aes256_vectors[i].ciphertext, tmp, &skey);
#else
aes256_padlock_decrypt(aes256_vectors[i].ciphertext, tmp, 1, &skey);
#endif
if (memcmp(aes256_vectors[i].plaintext, tmp, sizeof(tmp)) != 0) {
return 0;
}
}
#endif
}
return 1;
}
static
void
testa(struct array *a)
{
int testarray[TESTSIZE];
int i, j, n, r, *p;
for (i=0; i<TESTSIZE; i++) {
testarray[i]=i;
}
n = array_num(a);
KASSERT(n==0);
for (i=0; i<TESTSIZE; i++) {
r = array_add(a, &testarray[i], NULL);
KASSERT(r==0);
n = array_num(a);
KASSERT(n==i+1);
}
n = array_num(a);
KASSERT(n==TESTSIZE);
for (i=0; i<TESTSIZE; i++) {
p = array_get(a, i);
KASSERT(*p == i);
}
n = array_num(a);
KASSERT(n==TESTSIZE);
for (j=0; j<TESTSIZE*4; j++) {
i = random()%TESTSIZE;
p = array_get(a, i);
KASSERT(*p == i);
}
n = array_num(a);
KASSERT(n==TESTSIZE);
for (i=0; i<TESTSIZE; i++) {
array_set(a, i, &testarray[TESTSIZE-i-1]);
}
for (i=0; i<TESTSIZE; i++) {
p = array_get(a, i);
KASSERT(*p == TESTSIZE-i-1);
}
r = array_setsize(a, TESTSIZE/2);
KASSERT(r==0);
for (i=0; i<TESTSIZE/2; i++) {
p = array_get(a, i);
KASSERT(*p == TESTSIZE-i-1);
}
array_remove(a, 1);
for (i=1; i<TESTSIZE/2 - 1; i++) {
p = array_get(a, i);
KASSERT(*p == TESTSIZE-i-2);
}
p = array_get(a, 0);
KASSERT(*p == TESTSIZE-1);
array_setsize(a, 2);
p = array_get(a, 0);
KASSERT(*p == TESTSIZE-1);
p = array_get(a, 1);
KASSERT(*p == TESTSIZE-3);
array_set(a, 1, NULL);
array_setsize(a, 2);
p = array_get(a, 0);
KASSERT(*p == TESTSIZE-1);
p = array_get(a, 1);
KASSERT(p==NULL);
array_setsize(a, TESTSIZE*10);
p = array_get(a, 0);
KASSERT(*p == TESTSIZE-1);
p = array_get(a, 1);
KASSERT(p==NULL);
}
INT_PTR CALLBACK
_about_dlg_proc(
HWND hwnd,
UINT message,
WPARAM wparam,
LPARAM lparam
)
{
_ctl_init ctl_links[ ] =
{
{ DC_HOMEPAGE, IDC_ABOUT_URL1, 0 },
{ DC_FORUMPAGE, IDC_ABOUT_URL2, 0 }
};
static HICON h_icon;
switch ( message )
{
case WM_DESTROY :
{
DestroyIcon(h_icon);
return 0L;
}
break;
case WM_CLOSE :
{
EndDialog(hwnd, 0);
return 0L;
}
break;
case WM_COMMAND :
{
int id = LOWORD(wparam);
int code = HIWORD(wparam);
int k;
if ( code == EN_SETFOCUS )
{
SendMessage( (HWND)lparam, EM_SETSEL, -1, 0 );
}
if ( id == IDCANCEL || id == IDOK )
{
EndDialog(hwnd, 0);
}
for ( k = 0; k < array_num(ctl_links); k++ )
{
if ( id == ctl_links[k].id )
{
__execute(ctl_links[k].display);
}
}
}
break;
case WM_SHOWWINDOW :
{
SetFocus( GetDlgItem(hwnd, IDC_EDIT_NOTICE) );
SendMessage( GetDlgItem(hwnd, IDC_EDIT_NOTICE), EM_SETSEL, -1, 0 );
}
break;
case WM_INITDIALOG :
{
HWND h_notice = GetDlgItem(hwnd, IDC_EDIT_NOTICE);
wchar_t s_display[MAX_PATH];
BYTE *res;
int size, id_icon;
int k = 0;
res = _extract_rsrc( IDI_ICON_TRAY, RT_GROUP_ICON, &size );
id_icon = LookupIconIdFromDirectoryEx( res, TRUE, 48, 48, 0 );
res = _extract_rsrc( id_icon, RT_ICON, &size );
h_icon = CreateIconFromResourceEx( res, size, TRUE, 0x00030000, 48, 48, 0 );
SendMessage( GetDlgItem(hwnd, IDC_ICON_MAIN), STM_SETICON, (WPARAM)h_icon, 0 );
{
HWND h_title = GetDlgItem( hwnd, IDC_ABOUT1 );
_snwprintf(
s_display, sizeof_w(s_display), L"%s %S", DC_NAME, DC_FILE_VER
);
SetWindowText( h_title, s_display );
SetWindowText( h_notice,
L"This program is free software: you can redistribute "
L"it under the terms of the GNU General Public License "
L"version 3 as published by the Free Software Foundation.\r\n\r\n"
L"Contacts:\r\n"
L"[email protected] (PGP key ID 0xC48251EB4F8E4E6E)\r\n\r\n"
L"Special thanks to:\r\n"
L"Aleksey Bragin and ReactOS Foundation\r\n\r\n"
L"Portions of this software:\r\n"
L"Copyright \xa9 1998, 2001, 2002 Brian Palmer\r\n"
L"Copyright \xa9 2003, Dr Brian Gladman, Worcester, UK\r\n"
L"Copyright \xa9 2006, Rik Snel <*****@*****.**>\r\n"
L"Copyright \xa9 Vincent Rijmen <*****@*****.**>\r\n"
L"Copyright \xa9 Antoon Bosselaers <*****@*****.**>\r\n"
L"Copyright \xa9 Paulo Barreto <*****@*****.**>\r\n"
L"Copyright \xa9 Tom St Denis <*****@*****.**>\r\n"
L"Copyright \xa9 Juergen Schmied and Jon Griffiths\r\n"
L"Copyright \xa9 Lynn McGuire\r\n"
L"Copyright \xa9 Matthew Skala <*****@*****.**>\r\n"
L"Copyright \xa9 Werner Koch\r\n"
L"Copyright \xa9 Dag Arne Osvik <*****@*****.**>\r\n"
L"Copyright \xa9 Herbert Valerio Riedel <*****@*****.**>\r\n"
L"Copyright \xa9 Wei Dai\r\n"
L"Copyright \xa9 Ruben Jesus Garcia Hernandez <*****@*****.**>\r\n"
L"Copyright \xa9 Serge Trusov <*****@*****.**>"
);
SendMessage( h_title, WM_SETFONT, (WPARAM)__font_bold, 0 );
for ( k = 0; k < array_num(ctl_links); k++ )
{
HWND h_ctl = GetDlgItem(hwnd, ctl_links[k].id);
SetWindowLongPtr( h_ctl, GWL_USERDATA, (LONG_PTR)GetWindowLongPtr( h_ctl, GWL_WNDPROC ) );
SetWindowLongPtr( h_ctl, GWL_WNDPROC, (LONG_PTR)_link_proc );
SetWindowText( h_ctl, ctl_links[k].display );
SendMessage( h_ctl, WM_SETFONT, (WPARAM)__font_link, 0 );
{
WINDOWINFO pwi;
SIZE size;
HDC h_dc = GetDC( h_ctl );
SelectObject( h_dc, __font_link );
GetTextExtentPoint32( h_dc, ctl_links[k].display, d32(wcslen(ctl_links[k].display)), &size );
GetWindowInfo( h_ctl, &pwi );
ScreenToClient( hwnd, pv(&pwi.rcClient) );
MoveWindow( h_ctl, pwi.rcClient.left, pwi.rcClient.top, size.cx, size.cy, TRUE );
ReleaseDC( h_ctl, h_dc );
}
}
{
dc_conf conf;
if ( dc_get_conf_flags(&conf) == ST_OK )
{
wchar_t *s_using = L"Not supported";
wchar_t *s_inset = L"Not supported";
if ( conf.load_flags & DST_HW_CRYPTO )
{
s_using = (
conf.conf_flags & CONF_HW_CRYPTO ? L"Enabled" : L"Disabled"
);
if ( conf.load_flags & DST_INTEL_NI ) s_inset = L"IntelĀ® AES Instructions Set (AES-NI)";
if ( conf.load_flags & DST_VIA_PADLOCK ) s_inset = L"The VIA PadLock Advanced Cryptography Engine (ACE)";
}
_snwprintf( s_display, sizeof_w(s_display),
L"Hardware Cryptography: %s\r\n"
L"Instruction Set: %s",
s_using, s_inset
);
SetWindowText( GetDlgItem(hwnd, IDC_EDIT_CIPHER_INFO), s_display );
EnableWindow( GetDlgItem(hwnd, IDC_EDIT_CIPHER_INFO), conf.load_flags & DST_HW_CRYPTO );
}
}
}
SendMessage( h_notice, EM_SCROLLCARET, 0, 0 );
SetForegroundWindow( hwnd );
return 1L;
}
break;
default:
{
int rlt = _draw_proc( message, lparam );
if ( rlt != -1 )
{
return rlt;
}
}
}
return 0L;
}
int
as_copy(struct addrspace *old, struct addrspace **ret)
{
struct addrspace *newas;
int i,j, errno, retval, offset, region_len;
struct region *old_region, *new_region;
void *buffer;
struct pt_entry *old_entry, *new_entry;
newas = as_create();
if (newas==NULL) {
return ENOMEM;
}
buffer = kmalloc(PAGE_SIZE);
newas->heap_start = old->heap_start;
newas->heap_end = old->heap_end;
// Copy regions
region_len = array_num(old->as_regions);
for (i = 0; i < region_len; i++) {
old_region = array_get(old->as_regions, i);
new_region = kmalloc(sizeof(struct region));
if (old_region == NULL || new_region == NULL) {
goto err0;
}
new_region->base = old_region->base;
new_region->size = old_region->size;
new_region->permission = old_region->permission;
errno = array_add(newas->as_regions, new_region, NULL);
if (errno) {
goto err0;
}
}
// Copy page table
for (i = 0; i < PT_LEVEL_SIZE; i++){
if (old->pagetable[i] != NULL){
newas->pagetable[i] = kmalloc(PT_LEVEL_SIZE * sizeof(struct pt_entry));
memset(newas->pagetable[i], 0, PT_LEVEL_SIZE * sizeof(struct pt_entry));
// For each page table entry
// Lock the entire L2 pagetable
lock_acquire(old->pt_locks[i]);
for (j = 0; j < PT_LEVEL_SIZE; j++){
// We're about to copy this page. Make sure it can't be written to
vm_tlbflush((i << 22) & (j << 12));
old_entry = &old->pagetable[i][j];
new_entry = &newas->pagetable[i][j];
// For every valid pagetable entry...
if (old_entry->allocated){
offset = bs_alloc_index();
if (old_entry->in_memory){
// Write it to disk if it's in memory
retval = bs_write_page((void *) PADDR_TO_KVADDR(old_entry->p_addr), offset);
KASSERT(retval == 0);
} else {
// Or copy it to the new disk spot if not
retval = bs_read_page(buffer, old_entry->store_index);
KASSERT(retval == 0);
retval = bs_write_page(buffer, offset);
KASSERT(retval == 0);
}
// Update entry
// TODO: this will be caught by coremap
new_entry->p_addr = 0;
new_entry->store_index = offset;
new_entry->in_memory = false;
new_entry->allocated = true;
}
}
lock_release(old->pt_locks[i]);
}
}
kfree(buffer);
*ret = newas;
return 0;
err0:
for (i=0; i < (int)region_len; i++){
new_region = (struct region *)array_get(newas->as_regions,i);
if (new_region != NULL)
kfree(new_region);
}
return ENOMEM;
}