/* * Dynamic devices support * * Copyright 2006 Alexandre Julliard * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include "config.h" #include "wine/port.h" #include #include #include #include #include #define NONAMELESSUNION #include "mountmgr.h" #include "winreg.h" #include "winuser.h" #include "dbt.h" #include "wine/library.h" #include "wine/list.h" #include "wine/unicode.h" #include "wine/debug.h" WINE_DEFAULT_DEBUG_CHANNEL(mountmgr); #define MAX_DOS_DRIVES 26 #define MAX_PORTS 256 static const WCHAR drive_types[][8] = { { 0 }, /* DEVICE_UNKNOWN */ { 0 }, /* DEVICE_HARDDISK */ {'h','d',0}, /* DEVICE_HARDDISK_VOL */ {'f','l','o','p','p','y',0}, /* DEVICE_FLOPPY */ {'c','d','r','o','m',0}, /* DEVICE_CDROM */ {'c','d','r','o','m',0}, /* DEVICE_DVD */ {'n','e','t','w','o','r','k',0}, /* DEVICE_NETWORK */ {'r','a','m','d','i','s','k',0} /* DEVICE_RAMDISK */ }; static const WCHAR drives_keyW[] = {'S','o','f','t','w','a','r','e','\\', 'W','i','n','e','\\','D','r','i','v','e','s',0}; static const WCHAR ports_keyW[] = {'S','o','f','t','w','a','r','e','\\', 'W','i','n','e','\\','P','o','r','t','s',0}; struct disk_device { enum device_type type; /* drive type */ DEVICE_OBJECT *dev_obj; /* disk device allocated for this volume */ UNICODE_STRING name; /* device name */ UNICODE_STRING symlink; /* device symlink if any */ STORAGE_DEVICE_NUMBER devnum; /* device number info */ char *unix_device; /* unix device path */ char *unix_mount; /* unix mount point path */ }; struct volume { struct list entry; /* entry in volumes list */ struct disk_device *device; /* disk device */ char *udi; /* unique identifier for dynamic volumes */ unsigned int ref; /* ref count */ GUID guid; /* volume uuid */ struct mount_point *mount; /* Volume{xxx} mount point */ }; struct dos_drive { struct list entry; /* entry in drives list */ struct volume *volume; /* volume for this drive */ int drive; /* drive letter (0 = A: etc.) */ struct mount_point *mount; /* DosDevices mount point */ }; static struct list drives_list = LIST_INIT(drives_list); static struct list volumes_list = LIST_INIT(volumes_list); static DRIVER_OBJECT *harddisk_driver; static DRIVER_OBJECT *serial_driver; static DRIVER_OBJECT *parallel_driver; static CRITICAL_SECTION device_section; static CRITICAL_SECTION_DEBUG critsect_debug = { 0, 0, &device_section, { &critsect_debug.ProcessLocksList, &critsect_debug.ProcessLocksList }, 0, 0, { (DWORD_PTR)(__FILE__ ": device_section") } }; static CRITICAL_SECTION device_section = { &critsect_debug, -1, 0, 0, 0, 0 }; static char *get_dosdevices_path( char **device ) { const char *config_dir = wine_get_config_dir(); size_t len = strlen(config_dir) + sizeof("/dosdevices/com256"); char *path = HeapAlloc( GetProcessHeap(), 0, len ); if (path) { strcpy( path, config_dir ); strcat( path, "/dosdevices/a::" ); *device = path + len - sizeof("com256"); } return path; } static char *strdupA( const char *str ) { char *ret; if (!str) return NULL; if ((ret = RtlAllocateHeap( GetProcessHeap(), 0, strlen(str) + 1 ))) strcpy( ret, str ); return ret; } static const GUID *get_default_uuid( int letter ) { static GUID guid; guid.Data4[7] = 'A' + letter; return &guid; } /* read a Unix symlink; returned buffer must be freed by caller */ static char *read_symlink( const char *path ) { char *buffer; int ret, size = 128; for (;;) { if (!(buffer = RtlAllocateHeap( GetProcessHeap(), 0, size ))) { SetLastError( ERROR_NOT_ENOUGH_MEMORY ); return 0; } ret = readlink( path, buffer, size ); if (ret == -1) { RtlFreeHeap( GetProcessHeap(), 0, buffer ); return 0; } if (ret != size) { buffer[ret] = 0; return buffer; } RtlFreeHeap( GetProcessHeap(), 0, buffer ); size *= 2; } } /* update a symlink if it changed; return TRUE if updated */ static void update_symlink( const char *path, const char *dest, const char *orig_dest ) { if (dest && dest[0]) { if (!orig_dest || strcmp( orig_dest, dest )) { unlink( path ); symlink( dest, path ); } } else unlink( path ); } /* send notification about a change to a given drive */ static void send_notify( int drive, int code ) { DEV_BROADCAST_VOLUME info; info.dbcv_size = sizeof(info); info.dbcv_devicetype = DBT_DEVTYP_VOLUME; info.dbcv_reserved = 0; info.dbcv_unitmask = 1 << drive; info.dbcv_flags = DBTF_MEDIA; BroadcastSystemMessageW( BSF_FORCEIFHUNG|BSF_QUERY, NULL, WM_DEVICECHANGE, code, (LPARAM)&info ); } /* create the disk device for a given volume */ static NTSTATUS create_disk_device( enum device_type type, struct disk_device **device_ret ) { static const WCHAR harddiskvolW[] = {'\\','D','e','v','i','c','e', '\\','H','a','r','d','d','i','s','k','V','o','l','u','m','e','%','u',0}; static const WCHAR harddiskW[] = {'\\','D','e','v','i','c','e','\\','H','a','r','d','d','i','s','k','%','u',0}; static const WCHAR cdromW[] = {'\\','D','e','v','i','c','e','\\','C','d','R','o','m','%','u',0}; static const WCHAR floppyW[] = {'\\','D','e','v','i','c','e','\\','F','l','o','p','p','y','%','u',0}; static const WCHAR ramdiskW[] = {'\\','D','e','v','i','c','e','\\','R','a','m','d','i','s','k','%','u',0}; static const WCHAR cdromlinkW[] = {'\\','?','?','\\','C','d','R','o','m','%','u',0}; static const WCHAR physdriveW[] = {'\\','?','?','\\','P','h','y','s','i','c','a','l','D','r','i','v','e','%','u',0}; UINT i, first = 0; NTSTATUS status = 0; const WCHAR *format = NULL; const WCHAR *link_format = NULL; UNICODE_STRING name; DEVICE_OBJECT *dev_obj; struct disk_device *device; switch(type) { case DEVICE_UNKNOWN: case DEVICE_HARDDISK: case DEVICE_NETWORK: /* FIXME */ format = harddiskW; link_format = physdriveW; break; case DEVICE_HARDDISK_VOL: format = harddiskvolW; first = 1; /* harddisk volumes start counting from 1 */ break; case DEVICE_FLOPPY: format = floppyW; break; case DEVICE_CDROM: case DEVICE_DVD: format = cdromW; link_format = cdromlinkW; break; case DEVICE_RAMDISK: format = ramdiskW; break; } name.MaximumLength = (strlenW(format) + 10) * sizeof(WCHAR); name.Buffer = RtlAllocateHeap( GetProcessHeap(), 0, name.MaximumLength ); for (i = first; i < 32; i++) { sprintfW( name.Buffer, format, i ); name.Length = strlenW(name.Buffer) * sizeof(WCHAR); status = IoCreateDevice( harddisk_driver, sizeof(*device), &name, 0, 0, FALSE, &dev_obj ); if (status != STATUS_OBJECT_NAME_COLLISION) break; } if (!status) { device = dev_obj->DeviceExtension; device->dev_obj = dev_obj; device->name = name; device->type = type; device->unix_device = NULL; device->unix_mount = NULL; device->symlink.Buffer = NULL; if (link_format) { UNICODE_STRING symlink; symlink.MaximumLength = (strlenW(link_format) + 10) * sizeof(WCHAR); if ((symlink.Buffer = RtlAllocateHeap( GetProcessHeap(), 0, symlink.MaximumLength))) { sprintfW( symlink.Buffer, link_format, i ); symlink.Length = strlenW(symlink.Buffer) * sizeof(WCHAR); if (!IoCreateSymbolicLink( &symlink, &name )) device->symlink = symlink; } } switch (type) { case DEVICE_FLOPPY: case DEVICE_RAMDISK: device->devnum.DeviceType = FILE_DEVICE_DISK; device->devnum.DeviceNumber = i; device->devnum.PartitionNumber = ~0u; break; case DEVICE_CDROM: device->devnum.DeviceType = FILE_DEVICE_CD_ROM; device->devnum.DeviceNumber = i; device->devnum.PartitionNumber = ~0u; break; case DEVICE_DVD: device->devnum.DeviceType = FILE_DEVICE_DVD; device->devnum.DeviceNumber = i; device->devnum.PartitionNumber = ~0u; break; case DEVICE_UNKNOWN: case DEVICE_HARDDISK: case DEVICE_NETWORK: /* FIXME */ device->devnum.DeviceType = FILE_DEVICE_DISK; device->devnum.DeviceNumber = i; device->devnum.PartitionNumber = 0; break; case DEVICE_HARDDISK_VOL: device->devnum.DeviceType = FILE_DEVICE_DISK; device->devnum.DeviceNumber = 0; device->devnum.PartitionNumber = i; break; } *device_ret = device; TRACE( "created device %s\n", debugstr_w(name.Buffer) ); } else { FIXME( "IoCreateDevice %s got %x\n", debugstr_w(name.Buffer), status ); RtlFreeUnicodeString( &name ); } return status; } /* delete the disk device for a given drive */ static void delete_disk_device( struct disk_device *device ) { TRACE( "deleting device %s\n", debugstr_w(device->name.Buffer) ); if (device->symlink.Buffer) { IoDeleteSymbolicLink( &device->symlink ); RtlFreeUnicodeString( &device->symlink ); } RtlFreeHeap( GetProcessHeap(), 0, device->unix_device ); RtlFreeHeap( GetProcessHeap(), 0, device->unix_mount ); RtlFreeUnicodeString( &device->name ); IoDeleteDevice( device->dev_obj ); } /* grab another reference to a volume */ static struct volume *grab_volume( struct volume *volume ) { volume->ref++; return volume; } /* release a volume and delete the corresponding disk device when refcount is 0 */ static unsigned int release_volume( struct volume *volume ) { unsigned int ret = --volume->ref; if (!ret) { TRACE( "%s udi %s\n", debugstr_guid(&volume->guid), debugstr_a(volume->udi) ); assert( !volume->udi ); list_remove( &volume->entry ); if (volume->mount) delete_mount_point( volume->mount ); delete_disk_device( volume->device ); RtlFreeHeap( GetProcessHeap(), 0, volume ); } return ret; } /* set the volume udi */ static void set_volume_udi( struct volume *volume, const char *udi ) { if (udi) { assert( !volume->udi ); /* having a udi means the HAL side holds an extra reference */ if ((volume->udi = strdupA( udi ))) grab_volume( volume ); } else if (volume->udi) { RtlFreeHeap( GetProcessHeap(), 0, volume->udi ); volume->udi = NULL; release_volume( volume ); } } /* create a disk volume */ static NTSTATUS create_volume( const char *udi, enum device_type type, struct volume **volume_ret ) { struct volume *volume; NTSTATUS status; if (!(volume = RtlAllocateHeap( GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*volume) ))) return STATUS_NO_MEMORY; if (!(status = create_disk_device( type, &volume->device ))) { if (udi) set_volume_udi( volume, udi ); list_add_tail( &volumes_list, &volume->entry ); *volume_ret = grab_volume( volume ); } else RtlFreeHeap( GetProcessHeap(), 0, volume ); return status; } /* create the disk device for a given volume */ static NTSTATUS create_dos_device( struct volume *volume, const char *udi, int letter, enum device_type type, struct dos_drive **drive_ret ) { struct dos_drive *drive; NTSTATUS status; if (!(drive = RtlAllocateHeap( GetProcessHeap(), 0, sizeof(*drive) ))) return STATUS_NO_MEMORY; drive->drive = letter; drive->mount = NULL; if (volume) { if (udi) set_volume_udi( volume, udi ); drive->volume = grab_volume( volume ); status = STATUS_SUCCESS; } else status = create_volume( udi, type, &drive->volume ); if (status == STATUS_SUCCESS) { list_add_tail( &drives_list, &drive->entry ); *drive_ret = drive; } else RtlFreeHeap( GetProcessHeap(), 0, drive ); return status; } /* delete the disk device for a given drive */ static void delete_dos_device( struct dos_drive *drive ) { list_remove( &drive->entry ); if (drive->mount) delete_mount_point( drive->mount ); release_volume( drive->volume ); RtlFreeHeap( GetProcessHeap(), 0, drive ); } /* find a volume that matches the parameters */ static struct volume *find_matching_volume( const char *udi, const char *device, const char *mount_point, enum device_type type ) { struct volume *volume; struct disk_device *disk_device; LIST_FOR_EACH_ENTRY( volume, &volumes_list, struct volume, entry ) { int match = 0; /* when we have a udi we only match drives added manually */ if (udi && volume->udi) continue; /* and when we don't have a udi we only match dynamic drives */ if (!udi && !volume->udi) continue; disk_device = volume->device; if (disk_device->type != type) continue; if (device && disk_device->unix_device) { if (strcmp( device, disk_device->unix_device )) continue; match++; } if (mount_point && disk_device->unix_mount) { if (strcmp( mount_point, disk_device->unix_mount )) continue; match++; } if (!match) continue; TRACE( "found matching volume %s for device %s mount %s type %u\n", debugstr_guid(&volume->guid), debugstr_a(device), debugstr_a(mount_point), type ); return grab_volume( volume ); } return NULL; } /* change the information for an existing volume */ static NTSTATUS set_volume_info( struct volume *volume, struct dos_drive *drive, const char *device, const char *mount_point, enum device_type type, const GUID *guid ) { void *id = NULL; unsigned int id_len = 0; struct disk_device *disk_device = volume->device; NTSTATUS status; if (type != disk_device->type) { if ((status = create_disk_device( type, &disk_device ))) return status; if (volume->mount) { delete_mount_point( volume->mount ); volume->mount = NULL; } if (drive && drive->mount) { delete_mount_point( drive->mount ); drive->mount = NULL; } delete_disk_device( volume->device ); volume->device = disk_device; } else { RtlFreeHeap( GetProcessHeap(), 0, disk_device->unix_device ); RtlFreeHeap( GetProcessHeap(), 0, disk_device->unix_mount ); } disk_device->unix_device = strdupA( device ); disk_device->unix_mount = strdupA( mount_point ); if (guid && memcmp( &volume->guid, guid, sizeof(volume->guid) )) { volume->guid = *guid; if (volume->mount) { delete_mount_point( volume->mount ); volume->mount = NULL; } } if (!volume->mount) volume->mount = add_volume_mount_point( disk_device->dev_obj, &disk_device->name, &volume->guid ); if (drive && !drive->mount) drive->mount = add_dosdev_mount_point( disk_device->dev_obj, &disk_device->name, drive->drive ); if (disk_device->unix_mount) { id = disk_device->unix_mount; id_len = strlen( disk_device->unix_mount ) + 1; } if (volume->mount) set_mount_point_id( volume->mount, id, id_len ); if (drive && drive->mount) set_mount_point_id( drive->mount, id, id_len ); return STATUS_SUCCESS; } /* change the drive letter or volume for an existing drive */ static void set_drive_info( struct dos_drive *drive, int letter, struct volume *volume ) { if (drive->drive != letter) { if (drive->mount) delete_mount_point( drive->mount ); drive->mount = NULL; drive->drive = letter; } if (drive->volume != volume) { if (drive->mount) delete_mount_point( drive->mount ); drive->mount = NULL; grab_volume( volume ); release_volume( drive->volume ); drive->volume = volume; } } static inline BOOL is_valid_device( struct stat *st ) { #if defined(linux) || defined(__sun__) return S_ISBLK( st->st_mode ); #else /* disks are char devices on *BSD */ return S_ISCHR( st->st_mode ); #endif } /* find or create a DOS drive for the corresponding device */ static int add_drive( const char *device, enum device_type type ) { char *path, *p; char in_use[26]; struct stat dev_st, drive_st; int drive, first, last, avail = 0; if (stat( device, &dev_st ) == -1 || !is_valid_device( &dev_st )) return -1; if (!(path = get_dosdevices_path( &p ))) return -1; memset( in_use, 0, sizeof(in_use) ); switch (type) { case DEVICE_FLOPPY: first = 0; last = 2; break; case DEVICE_CDROM: case DEVICE_DVD: first = 3; last = 26; break; default: first = 2; last = 26; break; } while (avail != -1) { avail = -1; for (drive = first; drive < last; drive++) { if (in_use[drive]) continue; /* already checked */ *p = 'a' + drive; if (stat( path, &drive_st ) == -1) { if (lstat( path, &drive_st ) == -1 && errno == ENOENT) /* this is a candidate */ { if (avail == -1) { p[2] = 0; /* if mount point symlink doesn't exist either, it's available */ if (lstat( path, &drive_st ) == -1 && errno == ENOENT) avail = drive; p[2] = ':'; } } else in_use[drive] = 1; } else { in_use[drive] = 1; if (!is_valid_device( &drive_st )) continue; if (dev_st.st_rdev == drive_st.st_rdev) goto done; } } if (avail != -1) { /* try to use the one we found */ drive = avail; *p = 'a' + drive; if (symlink( device, path ) != -1) goto done; /* failed, retry the search */ } } drive = -1; done: HeapFree( GetProcessHeap(), 0, path ); return drive; } /* create devices for mapped drives */ static void create_drive_devices(void) { char *path, *p, *link, *device; struct dos_drive *drive; struct volume *volume; unsigned int i; HKEY drives_key; enum device_type drive_type; WCHAR driveW[] = {'a',':',0}; if (!(path = get_dosdevices_path( &p ))) return; if (RegOpenKeyW( HKEY_LOCAL_MACHINE, drives_keyW, &drives_key )) drives_key = 0; for (i = 0; i < MAX_DOS_DRIVES; i++) { p[0] = 'a' + i; p[2] = 0; if (!(link = read_symlink( path ))) continue; p[2] = ':'; device = read_symlink( path ); drive_type = i < 2 ? DEVICE_FLOPPY : DEVICE_HARDDISK_VOL; if (drives_key) { WCHAR buffer[32]; DWORD j, type, size = sizeof(buffer); driveW[0] = 'a' + i; if (!RegQueryValueExW( drives_key, driveW, NULL, &type, (BYTE *)buffer, &size ) && type == REG_SZ) { for (j = 0; j < sizeof(drive_types)/sizeof(drive_types[0]); j++) if (drive_types[j][0] && !strcmpiW( buffer, drive_types[j] )) { drive_type = j; break; } if (drive_type == DEVICE_FLOPPY && i >= 2) drive_type = DEVICE_HARDDISK; } } volume = find_matching_volume( NULL, device, link, drive_type ); if (!create_dos_device( volume, NULL, i, drive_type, &drive )) { /* don't reset uuid if we used an existing volume */ const GUID *guid = volume ? NULL : get_default_uuid(i); set_volume_info( drive->volume, drive, device, link, drive_type, guid ); } else { RtlFreeHeap( GetProcessHeap(), 0, link ); RtlFreeHeap( GetProcessHeap(), 0, device ); } if (volume) release_volume( volume ); } RegCloseKey( drives_key ); RtlFreeHeap( GetProcessHeap(), 0, path ); } /* create a new disk volume */ NTSTATUS add_volume( const char *udi, const char *device, const char *mount_point, enum device_type type, const GUID *guid ) { struct volume *volume; NTSTATUS status = STATUS_SUCCESS; TRACE( "adding %s device %s mount %s type %u uuid %s\n", debugstr_a(udi), debugstr_a(device), debugstr_a(mount_point), type, debugstr_guid(guid) ); EnterCriticalSection( &device_section ); LIST_FOR_EACH_ENTRY( volume, &volumes_list, struct volume, entry ) if (volume->udi && !strcmp( udi, volume->udi )) { grab_volume( volume ); goto found; } /* udi not found, search for a non-dynamic volume */ if ((volume = find_matching_volume( udi, device, mount_point, type ))) set_volume_udi( volume, udi ); else status = create_volume( udi, type, &volume ); found: if (!status) status = set_volume_info( volume, NULL, device, mount_point, type, guid ); if (volume) release_volume( volume ); LeaveCriticalSection( &device_section ); return status; } /* create a new disk volume */ NTSTATUS remove_volume( const char *udi ) { NTSTATUS status = STATUS_NO_SUCH_DEVICE; struct volume *volume; EnterCriticalSection( &device_section ); LIST_FOR_EACH_ENTRY( volume, &volumes_list, struct volume, entry ) { if (!volume->udi || strcmp( udi, volume->udi )) continue; set_volume_udi( volume, NULL ); status = STATUS_SUCCESS; break; } LeaveCriticalSection( &device_section ); return status; } /* create a new dos drive */ NTSTATUS add_dos_device( int letter, const char *udi, const char *device, const char *mount_point, enum device_type type, const GUID *guid ) { char *path, *p; HKEY hkey; NTSTATUS status = STATUS_SUCCESS; struct dos_drive *drive, *next; struct volume *volume; int notify = -1; if (!(path = get_dosdevices_path( &p ))) return STATUS_NO_MEMORY; EnterCriticalSection( &device_section ); volume = find_matching_volume( udi, device, mount_point, type ); if (letter == -1) /* auto-assign a letter */ { letter = add_drive( device, type ); if (letter == -1) { status = STATUS_OBJECT_NAME_COLLISION; goto done; } LIST_FOR_EACH_ENTRY_SAFE( drive, next, &drives_list, struct dos_drive, entry ) { if (drive->volume->udi && !strcmp( udi, drive->volume->udi )) goto found; if (drive->drive == letter) delete_dos_device( drive ); } } else /* simply reset the device symlink */ { LIST_FOR_EACH_ENTRY( drive, &drives_list, struct dos_drive, entry ) if (drive->drive == letter) break; *p = 'a' + letter; if (&drive->entry == &drives_list) update_symlink( path, device, NULL ); else { update_symlink( path, device, drive->volume->device->unix_device ); delete_dos_device( drive ); } } if ((status = create_dos_device( volume, udi, letter, type, &drive ))) goto done; found: if (!guid && !volume) guid = get_default_uuid( letter ); if (!volume) volume = grab_volume( drive->volume ); set_drive_info( drive, letter, volume ); p[0] = 'a' + drive->drive; p[2] = 0; update_symlink( path, mount_point, volume->device->unix_mount ); set_volume_info( volume, drive, device, mount_point, type, guid ); TRACE( "added device %c: udi %s for %s on %s type %u\n", 'a' + drive->drive, wine_dbgstr_a(udi), wine_dbgstr_a(device), wine_dbgstr_a(mount_point), type ); /* hack: force the drive type in the registry */ if (!RegCreateKeyW( HKEY_LOCAL_MACHINE, drives_keyW, &hkey )) { const WCHAR *type_name = drive_types[type]; WCHAR name[] = {'a',':',0}; name[0] += drive->drive; if (!type_name[0] && type == DEVICE_HARDDISK) type_name = drive_types[DEVICE_FLOPPY]; if (type_name[0]) RegSetValueExW( hkey, name, 0, REG_SZ, (const BYTE *)type_name, (strlenW(type_name) + 1) * sizeof(WCHAR) ); else RegDeleteValueW( hkey, name ); RegCloseKey( hkey ); } if (udi) notify = drive->drive; done: if (volume) release_volume( volume ); LeaveCriticalSection( &device_section ); RtlFreeHeap( GetProcessHeap(), 0, path ); if (notify != -1) send_notify( notify, DBT_DEVICEARRIVAL ); return status; } /* remove an existing dos drive, by letter or udi */ NTSTATUS remove_dos_device( int letter, const char *udi ) { NTSTATUS status = STATUS_NO_SUCH_DEVICE; HKEY hkey; struct dos_drive *drive; char *path, *p; int notify = -1; EnterCriticalSection( &device_section ); LIST_FOR_EACH_ENTRY( drive, &drives_list, struct dos_drive, entry ) { if (udi) { if (!drive->volume->udi) continue; if (strcmp( udi, drive->volume->udi )) continue; set_volume_udi( drive->volume, NULL ); } else if (drive->drive != letter) continue; if ((path = get_dosdevices_path( &p ))) { p[0] = 'a' + drive->drive; p[2] = 0; unlink( path ); RtlFreeHeap( GetProcessHeap(), 0, path ); } /* clear the registry key too */ if (!RegOpenKeyW( HKEY_LOCAL_MACHINE, drives_keyW, &hkey )) { WCHAR name[] = {'a',':',0}; name[0] += drive->drive; RegDeleteValueW( hkey, name ); RegCloseKey( hkey ); } if (udi && drive->volume->device->unix_mount) notify = drive->drive; delete_dos_device( drive ); status = STATUS_SUCCESS; break; } LeaveCriticalSection( &device_section ); if (notify != -1) send_notify( notify, DBT_DEVICEREMOVECOMPLETE ); return status; } /* query information about an existing dos drive, by letter or udi */ NTSTATUS query_dos_device( int letter, enum device_type *type, char **device, char **mount_point ) { NTSTATUS status = STATUS_NO_SUCH_DEVICE; struct dos_drive *drive; struct disk_device *disk_device; EnterCriticalSection( &device_section ); LIST_FOR_EACH_ENTRY( drive, &drives_list, struct dos_drive, entry ) { if (drive->drive != letter) continue; disk_device = drive->volume->device; if (type) *type = disk_device->type; if (device) *device = strdupA( disk_device->unix_device ); if (mount_point) *mount_point = strdupA( disk_device->unix_mount ); status = STATUS_SUCCESS; break; } LeaveCriticalSection( &device_section ); return status; } /* handler for ioctls on the harddisk device */ static NTSTATUS WINAPI harddisk_ioctl( DEVICE_OBJECT *device, IRP *irp ) { IO_STACK_LOCATION *irpsp = IoGetCurrentIrpStackLocation( irp ); struct disk_device *dev = device->DeviceExtension; TRACE( "ioctl %x insize %u outsize %u\n", irpsp->Parameters.DeviceIoControl.IoControlCode, irpsp->Parameters.DeviceIoControl.InputBufferLength, irpsp->Parameters.DeviceIoControl.OutputBufferLength ); EnterCriticalSection( &device_section ); switch(irpsp->Parameters.DeviceIoControl.IoControlCode) { case IOCTL_DISK_GET_DRIVE_GEOMETRY: { DISK_GEOMETRY info; DWORD len = min( sizeof(info), irpsp->Parameters.DeviceIoControl.OutputBufferLength ); info.Cylinders.QuadPart = 10000; info.MediaType = (dev->devnum.DeviceType == FILE_DEVICE_DISK) ? FixedMedia : RemovableMedia; info.TracksPerCylinder = 255; info.SectorsPerTrack = 63; info.BytesPerSector = 512; memcpy( irp->AssociatedIrp.SystemBuffer, &info, len ); irp->IoStatus.Information = len; irp->IoStatus.u.Status = STATUS_SUCCESS; break; } case IOCTL_DISK_GET_DRIVE_GEOMETRY_EX: { DISK_GEOMETRY_EX info; DWORD len = min( sizeof(info), irpsp->Parameters.DeviceIoControl.OutputBufferLength ); FIXME("The DISK_PARTITION_INFO and DISK_DETECTION_INFO structures will not be filled\n"); info.Geometry.Cylinders.QuadPart = 10000; info.Geometry.MediaType = (dev->devnum.DeviceType == FILE_DEVICE_DISK) ? FixedMedia : RemovableMedia; info.Geometry.TracksPerCylinder = 255; info.Geometry.SectorsPerTrack = 63; info.Geometry.BytesPerSector = 512; info.DiskSize.QuadPart = info.Geometry.Cylinders.QuadPart * info.Geometry.TracksPerCylinder * info.Geometry.SectorsPerTrack * info.Geometry.BytesPerSector; info.Data[0] = 0; memcpy( irp->AssociatedIrp.SystemBuffer, &info, len ); irp->IoStatus.Information = len; irp->IoStatus.u.Status = STATUS_SUCCESS; break; } case IOCTL_STORAGE_GET_DEVICE_NUMBER: { DWORD len = min( sizeof(dev->devnum), irpsp->Parameters.DeviceIoControl.OutputBufferLength ); memcpy( irp->AssociatedIrp.SystemBuffer, &dev->devnum, len ); irp->IoStatus.Information = len; irp->IoStatus.u.Status = STATUS_SUCCESS; break; } case IOCTL_CDROM_READ_TOC: irp->IoStatus.u.Status = STATUS_INVALID_DEVICE_REQUEST; break; case IOCTL_VOLUME_GET_VOLUME_DISK_EXTENTS: { DWORD len = min( 32, irpsp->Parameters.DeviceIoControl.OutputBufferLength ); FIXME( "returning zero-filled buffer for IOCTL_VOLUME_GET_VOLUME_DISK_EXTENTS\n" ); memset( irp->AssociatedIrp.SystemBuffer, 0, len ); irp->IoStatus.Information = len; irp->IoStatus.u.Status = STATUS_SUCCESS; break; } default: { ULONG code = irpsp->Parameters.DeviceIoControl.IoControlCode; FIXME("Unsupported ioctl %x (device=%x access=%x func=%x method=%x)\n", code, code >> 16, (code >> 14) & 3, (code >> 2) & 0xfff, code & 3); irp->IoStatus.u.Status = STATUS_NOT_SUPPORTED; break; } } LeaveCriticalSection( &device_section ); IoCompleteRequest( irp, IO_NO_INCREMENT ); return STATUS_SUCCESS; } /* driver entry point for the harddisk driver */ NTSTATUS WINAPI harddisk_driver_entry( DRIVER_OBJECT *driver, UNICODE_STRING *path ) { struct disk_device *device; harddisk_driver = driver; driver->MajorFunction[IRP_MJ_DEVICE_CONTROL] = harddisk_ioctl; /* create a harddisk0 device that isn't assigned to any drive */ create_disk_device( DEVICE_HARDDISK, &device ); create_drive_devices(); return STATUS_SUCCESS; } /* create a serial or parallel port */ static BOOL create_port_device( DRIVER_OBJECT *driver, int n, const char *unix_path, const char *dosdevices_path, char *p, HKEY wine_ports_key, HKEY windows_ports_key ) { static const WCHAR comW[] = {'C','O','M','%','u',0}; static const WCHAR lptW[] = {'L','P','T','%','u',0}; static const WCHAR auxW[] = {'\\','D','o','s','D','e','v','i','c','e','s','\\','A','U','X',0}; static const WCHAR prnW[] = {'\\','D','o','s','D','e','v','i','c','e','s','\\','P','R','N',0}; static const WCHAR device_serialW[] = {'\\','D','e','v','i','c','e','\\','S','e','r','i','a','l','%','u',0}; static const WCHAR device_parallelW[] = {'\\','D','e','v','i','c','e','\\','P','a','r','a','l','l','e','l','%','u',0}; static const WCHAR dosdevices_comW[] = {'\\','D','o','s','D','e','v','i','c','e','s','\\','C','O','M','%','u',0}; static const WCHAR dosdevices_lptW[] = {'\\','D','o','s','D','e','v','i','c','e','s','\\','L','P','T','%','u',0}; const WCHAR *dos_name_format, *nt_name_format, *reg_value_format, *symlink_format, *default_device; WCHAR dos_name[7], reg_value[256], nt_buffer[32], symlink_buffer[32]; DWORD type, size; char override_path[256]; UNICODE_STRING nt_name, symlink_name, default_name; DEVICE_OBJECT *dev_obj; NTSTATUS status; if (driver == serial_driver) { dos_name_format = comW; nt_name_format = device_serialW; reg_value_format = comW; symlink_format = dosdevices_comW; default_device = auxW; } else { dos_name_format = lptW; nt_name_format = device_parallelW; reg_value_format = dosdevices_lptW; symlink_format = dosdevices_lptW; default_device = prnW; } sprintfW( dos_name, dos_name_format, n ); /* check for override */ size = sizeof(reg_value); if (RegQueryValueExW( wine_ports_key, dos_name, NULL, &type, (BYTE *)reg_value, &size ) == 0 && type == REG_SZ) { if (!reg_value[0] || !WideCharToMultiByte( CP_UNIXCP, WC_ERR_INVALID_CHARS, reg_value, size/sizeof(WCHAR), override_path, sizeof(override_path), NULL, NULL)) return FALSE; unix_path = override_path; } if (!unix_path) return FALSE; /* create DOS device */ sprintf( p, "%u", n ); if (symlink( unix_path, dosdevices_path ) != 0) return FALSE; /* create NT device */ sprintfW( nt_buffer, nt_name_format, n - 1 ); RtlInitUnicodeString( &nt_name, nt_buffer ); status = IoCreateDevice( driver, 0, &nt_name, 0, 0, FALSE, &dev_obj ); if (status != STATUS_SUCCESS) { FIXME( "IoCreateDevice %s got %x\n", debugstr_w(nt_name.Buffer), status ); return FALSE; } sprintfW( symlink_buffer, symlink_format, n ); RtlInitUnicodeString( &symlink_name, symlink_buffer ); IoCreateSymbolicLink( &symlink_name, &nt_name ); if (n == 1) { RtlInitUnicodeString( &default_name, default_device ); IoCreateSymbolicLink( &default_name, &symlink_name ); } /* TODO: store information about the Unix device in the NT device */ /* create registry entry */ sprintfW( reg_value, reg_value_format, n ); RegSetValueExW( windows_ports_key, nt_name.Buffer, 0, REG_SZ, (BYTE *)reg_value, (strlenW( reg_value ) + 1) * sizeof(WCHAR) ); return TRUE; } /* find and create serial or parallel ports */ static void create_port_devices( DRIVER_OBJECT *driver ) { static const char *serial_search_paths[] = { #ifdef linux "/dev/ttyS%u", "/dev/ttyUSB%u", #elif defined(__FreeBSD__) || defined(__FreeBSD_kernel__) "/dev/cuau%u", #elif defined(__DragonFly__) "/dev/cuaa%u", #else "", #endif }; static const char *parallel_search_paths[] = { #ifdef linux "/dev/lp%u", #else "", #endif }; static const WCHAR serialcomm_keyW[] = {'H','A','R','D','W','A','R','E','\\', 'D','E','V','I','C','E','M','A','P','\\', 'S','E','R','I','A','L','C','O','M','M',0}; static const WCHAR parallel_ports_keyW[] = {'H','A','R','D','W','A','R','E','\\', 'D','E','V','I','C','E','M','A','P','\\', 'P','A','R','A','L','L','E','L',' ','P','O','R','T','S',0}; const char **search_paths; const WCHAR *windows_ports_key_name; char *dosdevices_path, *p; HKEY wine_ports_key = NULL, windows_ports_key = NULL; char unix_path[256]; int num_search_paths, i, j, n; if (!(dosdevices_path = get_dosdevices_path( &p ))) return; if (driver == serial_driver) { p[0] = 'c'; p[1] = 'o'; p[2] = 'm'; search_paths = serial_search_paths; num_search_paths = sizeof(serial_search_paths)/sizeof(serial_search_paths[0]); windows_ports_key_name = serialcomm_keyW; } else { p[0] = 'l'; p[1] = 'p'; p[2] = 't'; search_paths = parallel_search_paths; num_search_paths = sizeof(parallel_search_paths)/sizeof(parallel_search_paths[0]); windows_ports_key_name = parallel_ports_keyW; } p += 3; RegOpenKeyExW( HKEY_LOCAL_MACHINE, ports_keyW, 0, KEY_QUERY_VALUE, &wine_ports_key ); RegCreateKeyExW( HKEY_LOCAL_MACHINE, windows_ports_key_name, 0, NULL, REG_OPTION_VOLATILE, KEY_ALL_ACCESS, NULL, &windows_ports_key, NULL ); /* remove old symlinks */ for (n = 1; n <= MAX_PORTS; n++) { sprintf( p, "%u", n ); if (unlink( dosdevices_path ) != 0 && errno == ENOENT) break; } /* look for ports in the usual places */ n = 1; for (i = 0; i < num_search_paths; i++) { for (j = 0; n <= MAX_PORTS; j++) { sprintf( unix_path, search_paths[i], j ); if (access( unix_path, F_OK ) != 0) break; create_port_device( driver, n, unix_path, dosdevices_path, p, wine_ports_key, windows_ports_key ); n++; } } /* add any extra user-defined serial ports */ while (n <= MAX_PORTS) { if (!create_port_device( driver, n, NULL, dosdevices_path, p, wine_ports_key, windows_ports_key )) break; n++; } RegCloseKey( wine_ports_key ); RegCloseKey( windows_ports_key ); HeapFree( GetProcessHeap(), 0, dosdevices_path ); } /* driver entry point for the serial port driver */ NTSTATUS WINAPI serial_driver_entry( DRIVER_OBJECT *driver, UNICODE_STRING *path ) { serial_driver = driver; /* TODO: fill in driver->MajorFunction */ create_port_devices( driver ); return STATUS_SUCCESS; } /* driver entry point for the parallel port driver */ NTSTATUS WINAPI parallel_driver_entry( DRIVER_OBJECT *driver, UNICODE_STRING *path ) { parallel_driver = driver; /* TODO: fill in driver->MajorFunction */ create_port_devices( driver ); return STATUS_SUCCESS; }