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reactos/drivers/filesystems/btrfs/btrfs.c

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/* Copyright (c) Mark Harmstone 2016-17
*
* This file is part of WinBtrfs.
*
* WinBtrfs is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public Licence as published by
* the Free Software Foundation, either version 3 of the Licence, or
* (at your option) any later version.
*
* WinBtrfs 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 Licence for more details.
*
* You should have received a copy of the GNU Lesser General Public Licence
* along with WinBtrfs. If not, see <http://www.gnu.org/licenses/>. */
#ifdef _DEBUG
#define DEBUG
#endif
#include "btrfs_drv.h"
#ifndef __REACTOS__
#ifndef _MSC_VER
#include <cpuid.h>
#else
#include <intrin.h>
#endif
#endif
#include <ntddscsi.h>
#include "btrfs.h"
#include <ata.h>
#ifndef _MSC_VER
#include <initguid.h>
#include <ntddstor.h>
#undef INITGUID
#endif
#include <ntdddisk.h>
#include <ntddvol.h>
#ifdef _MSC_VER
#include <initguid.h>
#include <ntddstor.h>
#undef INITGUID
#endif
#define INCOMPAT_SUPPORTED (BTRFS_INCOMPAT_FLAGS_MIXED_BACKREF | BTRFS_INCOMPAT_FLAGS_DEFAULT_SUBVOL | BTRFS_INCOMPAT_FLAGS_MIXED_GROUPS | \
BTRFS_INCOMPAT_FLAGS_COMPRESS_LZO | BTRFS_INCOMPAT_FLAGS_BIG_METADATA | BTRFS_INCOMPAT_FLAGS_RAID56 | \
BTRFS_INCOMPAT_FLAGS_EXTENDED_IREF | BTRFS_INCOMPAT_FLAGS_SKINNY_METADATA | BTRFS_INCOMPAT_FLAGS_NO_HOLES)
#define COMPAT_RO_SUPPORTED (BTRFS_COMPAT_RO_FLAGS_FREE_SPACE_CACHE | BTRFS_COMPAT_RO_FLAGS_FREE_SPACE_CACHE_VALID)
static WCHAR device_name[] = {'\\','B','t','r','f','s',0};
static WCHAR dosdevice_name[] = {'\\','D','o','s','D','e','v','i','c','e','s','\\','B','t','r','f','s',0};
DEFINE_GUID(BtrfsBusInterface, 0x4d414874, 0x6865, 0x6761, 0x6d, 0x65, 0x83, 0x69, 0x17, 0x9a, 0x7d, 0x1d);
PDRIVER_OBJECT drvobj;
PDEVICE_OBJECT master_devobj;
#ifndef __REACTOS__
BOOL have_sse42 = FALSE, have_sse2 = FALSE;
#endif
UINT64 num_reads = 0;
LIST_ENTRY uid_map_list, gid_map_list;
LIST_ENTRY VcbList;
ERESOURCE global_loading_lock;
UINT32 debug_log_level = 0;
UINT32 mount_compress = 0;
UINT32 mount_compress_force = 0;
UINT32 mount_compress_type = 0;
UINT32 mount_zlib_level = 3;
UINT32 mount_flush_interval = 30;
UINT32 mount_max_inline = 2048;
UINT32 mount_skip_balance = 0;
UINT32 mount_no_barrier = 0;
UINT32 mount_no_trim = 0;
UINT32 mount_clear_cache = 0;
UINT32 mount_allow_degraded = 0;
UINT32 mount_readonly = 0;
UINT32 no_pnp = 0;
BOOL log_started = FALSE;
UNICODE_STRING log_device, log_file, registry_path;
tPsUpdateDiskCounters fPsUpdateDiskCounters;
tCcCopyReadEx fCcCopyReadEx;
tCcCopyWriteEx fCcCopyWriteEx;
tCcSetAdditionalCacheAttributesEx fCcSetAdditionalCacheAttributesEx;
tFsRtlUpdateDiskCounters fFsRtlUpdateDiskCounters;
BOOL diskacc = FALSE;
void *notification_entry = NULL, *notification_entry2 = NULL, *notification_entry3 = NULL;
ERESOURCE pdo_list_lock, mapping_lock;
LIST_ENTRY pdo_list;
BOOL finished_probing = FALSE;
HANDLE degraded_wait_handle = NULL, mountmgr_thread_handle = NULL;
BOOL degraded_wait = TRUE;
KEVENT mountmgr_thread_event;
BOOL shutting_down = FALSE;
#ifdef _DEBUG
PFILE_OBJECT comfo = NULL;
PDEVICE_OBJECT comdo = NULL;
HANDLE log_handle = NULL;
ERESOURCE log_lock;
HANDLE serial_thread_handle = NULL;
static void init_serial(BOOL first_time);
#endif
static NTSTATUS close_file(_In_ PFILE_OBJECT FileObject, _In_ PIRP Irp);
typedef struct {
KEVENT Event;
IO_STATUS_BLOCK iosb;
} read_context;
#ifdef _DEBUG
_Function_class_(IO_COMPLETION_ROUTINE)
static NTSTATUS dbg_completion(_In_ PDEVICE_OBJECT DeviceObject, _In_ PIRP Irp, _In_ PVOID conptr) {
read_context* context = conptr;
UNUSED(DeviceObject);
context->iosb = Irp->IoStatus;
KeSetEvent(&context->Event, 0, FALSE);
return STATUS_MORE_PROCESSING_REQUIRED;
}
#ifdef DEBUG_LONG_MESSAGES
void _debug_message(_In_ const char* func, _In_ const char* file, _In_ unsigned int line, _In_ char* s, ...) {
#else
void _debug_message(_In_ const char* func, _In_ char* s, ...) {
#endif
LARGE_INTEGER offset;
PIO_STACK_LOCATION IrpSp;
NTSTATUS Status;
PIRP Irp;
va_list ap;
char *buf2, *buf;
read_context context;
UINT32 length;
buf2 = ExAllocatePoolWithTag(NonPagedPool, 1024, ALLOC_TAG);
if (!buf2) {
DbgPrint("Couldn't allocate buffer in debug_message\n");
return;
}
#ifdef DEBUG_LONG_MESSAGES
sprintf(buf2, "%p:%s:%s:%u:", PsGetCurrentThread(), func, file, line);
#else
sprintf(buf2, "%p:%s:", PsGetCurrentThread(), func);
#endif
buf = &buf2[strlen(buf2)];
va_start(ap, s);
vsprintf(buf, s, ap);
ExAcquireResourceSharedLite(&log_lock, TRUE);
if (!log_started || (log_device.Length == 0 && log_file.Length == 0)) {
DbgPrint(buf2);
} else if (log_device.Length > 0) {
if (!comdo) {
DbgPrint("comdo is NULL :-(\n");
DbgPrint(buf2);
goto exit2;
}
length = (UINT32)strlen(buf2);
offset.u.LowPart = 0;
offset.u.HighPart = 0;
RtlZeroMemory(&context, sizeof(read_context));
KeInitializeEvent(&context.Event, NotificationEvent, FALSE);
Irp = IoAllocateIrp(comdo->StackSize, FALSE);
if (!Irp) {
DbgPrint("IoAllocateIrp failed\n");
goto exit2;
}
IrpSp = IoGetNextIrpStackLocation(Irp);
IrpSp->MajorFunction = IRP_MJ_WRITE;
if (comdo->Flags & DO_BUFFERED_IO) {
Irp->AssociatedIrp.SystemBuffer = buf2;
Irp->Flags = IRP_BUFFERED_IO;
} else if (comdo->Flags & DO_DIRECT_IO) {
Irp->MdlAddress = IoAllocateMdl(buf2, length, FALSE, FALSE, NULL);
if (!Irp->MdlAddress) {
DbgPrint("IoAllocateMdl failed\n");
goto exit;
}
MmBuildMdlForNonPagedPool(Irp->MdlAddress);
} else {
Irp->UserBuffer = buf2;
}
IrpSp->Parameters.Write.Length = length;
IrpSp->Parameters.Write.ByteOffset = offset;
Irp->UserIosb = &context.iosb;
Irp->UserEvent = &context.Event;
IoSetCompletionRoutine(Irp, dbg_completion, &context, TRUE, TRUE, TRUE);
Status = IoCallDriver(comdo, Irp);
if (Status == STATUS_PENDING) {
KeWaitForSingleObject(&context.Event, Executive, KernelMode, FALSE, NULL);
Status = context.iosb.Status;
}
if (comdo->Flags & DO_DIRECT_IO)
IoFreeMdl(Irp->MdlAddress);
if (!NT_SUCCESS(Status)) {
DbgPrint("failed to write to COM1 - error %08x\n", Status);
goto exit;
}
exit:
IoFreeIrp(Irp);
} else if (log_handle != NULL) {
IO_STATUS_BLOCK iosb;
length = (UINT32)strlen(buf2);
Status = ZwWriteFile(log_handle, NULL, NULL, NULL, &iosb, buf2, length, NULL, NULL);
if (!NT_SUCCESS(Status)) {
DbgPrint("failed to write to file - error %08x\n", Status);
}
}
exit2:
ExReleaseResourceLite(&log_lock);
va_end(ap);
if (buf2)
ExFreePool(buf2);
}
#endif
BOOL is_top_level(_In_ PIRP Irp) {
if (!IoGetTopLevelIrp()) {
IoSetTopLevelIrp(Irp);
return TRUE;
}
return FALSE;
}
_Function_class_(DRIVER_UNLOAD)
#ifdef __REACTOS__
static void NTAPI DriverUnload(_In_ PDRIVER_OBJECT DriverObject) {
#else
static void DriverUnload(_In_ PDRIVER_OBJECT DriverObject) {
#endif
UNICODE_STRING dosdevice_nameW;
ERR("DriverUnload\n");
free_cache();
IoUnregisterFileSystem(DriverObject->DeviceObject);
if (notification_entry2)
#ifdef __REACTOS__
IoUnregisterPlugPlayNotification(notification_entry2);
#else
IoUnregisterPlugPlayNotificationEx(notification_entry2);
#endif
if (notification_entry3)
#ifdef __REACTOS__
IoUnregisterPlugPlayNotification(notification_entry3);
#else
IoUnregisterPlugPlayNotificationEx(notification_entry3);
#endif
if (notification_entry)
#ifdef __REACTOS__
IoUnregisterPlugPlayNotification(notification_entry);
#else
IoUnregisterPlugPlayNotificationEx(notification_entry);
#endif
dosdevice_nameW.Buffer = dosdevice_name;
dosdevice_nameW.Length = dosdevice_nameW.MaximumLength = (USHORT)wcslen(dosdevice_name) * sizeof(WCHAR);
IoDeleteSymbolicLink(&dosdevice_nameW);
IoDeleteDevice(DriverObject->DeviceObject);
while (!IsListEmpty(&uid_map_list)) {
LIST_ENTRY* le = RemoveHeadList(&uid_map_list);
uid_map* um = CONTAINING_RECORD(le, uid_map, listentry);
ExFreePool(um->sid);
ExFreePool(um);
}
while (!IsListEmpty(&gid_map_list)) {
gid_map* gm = CONTAINING_RECORD(RemoveHeadList(&gid_map_list), gid_map, listentry);
ExFreePool(gm->sid);
ExFreePool(gm);
}
// FIXME - free volumes and their devpaths
#ifdef _DEBUG
if (comfo)
ObDereferenceObject(comfo);
if (log_handle)
ZwClose(log_handle);
#endif
ExDeleteResourceLite(&global_loading_lock);
ExDeleteResourceLite(&pdo_list_lock);
if (log_device.Buffer)
ExFreePool(log_device.Buffer);
if (log_file.Buffer)
ExFreePool(log_file.Buffer);
if (registry_path.Buffer)
ExFreePool(registry_path.Buffer);
#ifdef _DEBUG
ExDeleteResourceLite(&log_lock);
#endif
ExDeleteResourceLite(&mapping_lock);
}
static BOOL get_last_inode(_In_ _Requires_exclusive_lock_held_(_Curr_->tree_lock) device_extension* Vcb, _In_ root* r, _In_opt_ PIRP Irp) {
KEY searchkey;
traverse_ptr tp, prev_tp;
NTSTATUS Status;
// get last entry
searchkey.obj_id = 0xffffffffffffffff;
searchkey.obj_type = 0xff;
searchkey.offset = 0xffffffffffffffff;
Status = find_item(Vcb, r, &tp, &searchkey, FALSE, Irp);
if (!NT_SUCCESS(Status)) {
ERR("error - find_item returned %08x\n", Status);
return FALSE;
}
if (tp.item->key.obj_type == TYPE_INODE_ITEM || (tp.item->key.obj_type == TYPE_ROOT_ITEM && !(tp.item->key.obj_id & 0x8000000000000000))) {
r->lastinode = tp.item->key.obj_id;
TRACE("last inode for tree %llx is %llx\n", r->id, r->lastinode);
return TRUE;
}
while (find_prev_item(Vcb, &tp, &prev_tp, Irp)) {
tp = prev_tp;
TRACE("moving on to %llx,%x,%llx\n", tp.item->key.obj_id, tp.item->key.obj_type, tp.item->key.offset);
if (tp.item->key.obj_type == TYPE_INODE_ITEM || (tp.item->key.obj_type == TYPE_ROOT_ITEM && !(tp.item->key.obj_id & 0x8000000000000000))) {
r->lastinode = tp.item->key.obj_id;
TRACE("last inode for tree %llx is %llx\n", r->id, r->lastinode);
return TRUE;
}
}
r->lastinode = SUBVOL_ROOT_INODE;
WARN("no INODE_ITEMs in tree %llx\n", r->id);
return TRUE;
}
_Success_(return)
static BOOL extract_xattr(_In_reads_bytes_(size) void* item, _In_ USHORT size, _In_z_ char* name, _Out_ UINT8** data, _Out_ UINT16* datalen) {
DIR_ITEM* xa = (DIR_ITEM*)item;
USHORT xasize;
while (TRUE) {
if (size < sizeof(DIR_ITEM) || size < (sizeof(DIR_ITEM) - 1 + xa->m + xa->n)) {
WARN("DIR_ITEM is truncated\n");
return FALSE;
}
if (xa->n == strlen(name) && RtlCompareMemory(name, xa->name, xa->n) == xa->n) {
TRACE("found xattr %s\n", name);
*datalen = xa->m;
if (xa->m > 0) {
*data = ExAllocatePoolWithTag(PagedPool, xa->m, ALLOC_TAG);
if (!*data) {
ERR("out of memory\n");
return FALSE;
}
RtlCopyMemory(*data, &xa->name[xa->n], xa->m);
} else
*data = NULL;
return TRUE;
}
xasize = sizeof(DIR_ITEM) - 1 + xa->m + xa->n;
if (size > xasize) {
size -= xasize;
xa = (DIR_ITEM*)&xa->name[xa->m + xa->n];
} else
break;
}
TRACE("xattr %s not found\n", name);
return FALSE;
}
_Success_(return)
BOOL get_xattr(_In_ _Requires_lock_held_(_Curr_->tree_lock) device_extension* Vcb, _In_ root* subvol, _In_ UINT64 inode, _In_z_ char* name, _In_ UINT32 crc32,
_Out_ UINT8** data, _Out_ UINT16* datalen, _In_opt_ PIRP Irp) {
KEY searchkey;
traverse_ptr tp;
NTSTATUS Status;
TRACE("(%p, %llx, %llx, %s, %08x, %p, %p)\n", Vcb, subvol->id, inode, name, crc32, data, datalen);
searchkey.obj_id = inode;
searchkey.obj_type = TYPE_XATTR_ITEM;
searchkey.offset = crc32;
Status = find_item(Vcb, subvol, &tp, &searchkey, FALSE, Irp);
if (!NT_SUCCESS(Status)) {
ERR("error - find_item returned %08x\n", Status);
return FALSE;
}
if (keycmp(tp.item->key, searchkey)) {
TRACE("could not find item (%llx,%x,%llx)\n", searchkey.obj_id, searchkey.obj_type, searchkey.offset);
return FALSE;
}
if (tp.item->size < sizeof(DIR_ITEM)) {
ERR("(%llx,%x,%llx) was %u bytes, expected at least %u\n", tp.item->key.obj_id, tp.item->key.obj_type, tp.item->key.offset, tp.item->size, sizeof(DIR_ITEM));
return FALSE;
}
return extract_xattr(tp.item->data, tp.item->size, name, data, datalen);
}
_Dispatch_type_(IRP_MJ_CLOSE)
_Function_class_(DRIVER_DISPATCH)
static NTSTATUS drv_close(_In_ PDEVICE_OBJECT DeviceObject, _In_ PIRP Irp) {
NTSTATUS Status;
PIO_STACK_LOCATION IrpSp;
device_extension* Vcb = DeviceObject->DeviceExtension;
BOOL top_level;
FsRtlEnterFileSystem();
TRACE("close\n");
top_level = is_top_level(Irp);
if (DeviceObject == master_devobj) {
TRACE("Closing file system\n");
Status = STATUS_SUCCESS;
goto end;
} else if (Vcb && Vcb->type == VCB_TYPE_VOLUME) {
Status = vol_close(DeviceObject, Irp);
goto end;
} else if (!Vcb || Vcb->type != VCB_TYPE_FS) {
Status = STATUS_INVALID_PARAMETER;
goto end;
}
IrpSp = IoGetCurrentIrpStackLocation(Irp);
// FIXME - unmount if called for volume
// FIXME - call FsRtlNotifyUninitializeSync(&Vcb->NotifySync) if unmounting
Status = close_file(IrpSp->FileObject, Irp);
end:
Irp->IoStatus.Status = Status;
Irp->IoStatus.Information = 0;
IoCompleteRequest( Irp, IO_DISK_INCREMENT );
if (top_level)
IoSetTopLevelIrp(NULL);
TRACE("returning %08x\n", Status);
FsRtlExitFileSystem();
return Status;
}
_Dispatch_type_(IRP_MJ_FLUSH_BUFFERS)
_Function_class_(DRIVER_DISPATCH)
static NTSTATUS drv_flush_buffers(_In_ PDEVICE_OBJECT DeviceObject, _In_ PIRP Irp) {
NTSTATUS Status;
PIO_STACK_LOCATION IrpSp = IoGetCurrentIrpStackLocation( Irp );
PFILE_OBJECT FileObject = IrpSp->FileObject;
fcb* fcb = FileObject->FsContext;
device_extension* Vcb = DeviceObject->DeviceExtension;
BOOL top_level;
FsRtlEnterFileSystem();
TRACE("flush buffers\n");
top_level = is_top_level(Irp);
if (Vcb && Vcb->type == VCB_TYPE_VOLUME) {
Status = vol_flush_buffers(DeviceObject, Irp);
goto end;
} else if (!Vcb || Vcb->type != VCB_TYPE_FS) {
Status = STATUS_INVALID_PARAMETER;
goto end;
}
if (!fcb) {
ERR("fcb was NULL\n");
Status = STATUS_INVALID_PARAMETER;
goto end;
}
if (fcb == Vcb->volume_fcb) {
Status = STATUS_INVALID_PARAMETER;
goto end;
}
Irp->IoStatus.Information = 0;
fcb->Header.IsFastIoPossible = fast_io_possible(fcb);
Status = STATUS_SUCCESS;
Irp->IoStatus.Status = Status;
if (fcb->type != BTRFS_TYPE_DIRECTORY) {
CcFlushCache(&fcb->nonpaged->segment_object, NULL, 0, &Irp->IoStatus);
if (fcb->Header.PagingIoResource) {
ExAcquireResourceExclusiveLite(fcb->Header.PagingIoResource, TRUE);
ExReleaseResourceLite(fcb->Header.PagingIoResource);
}
Status = Irp->IoStatus.Status;
}
end:
IoCompleteRequest(Irp, IO_NO_INCREMENT);
TRACE("returning %08x\n", Status);
if (top_level)
IoSetTopLevelIrp(NULL);
FsRtlExitFileSystem();
return Status;
}
static void calculate_total_space(_In_ device_extension* Vcb, _Out_ UINT64* totalsize, _Out_ UINT64* freespace) {
UINT64 nfactor, dfactor, sectors_used;
if (Vcb->data_flags & BLOCK_FLAG_DUPLICATE || Vcb->data_flags & BLOCK_FLAG_RAID1 || Vcb->data_flags & BLOCK_FLAG_RAID10) {
nfactor = 1;
dfactor = 2;
} else if (Vcb->data_flags & BLOCK_FLAG_RAID5) {
nfactor = Vcb->superblock.num_devices - 1;
dfactor = Vcb->superblock.num_devices;
} else if (Vcb->data_flags & BLOCK_FLAG_RAID6) {
nfactor = Vcb->superblock.num_devices - 2;
dfactor = Vcb->superblock.num_devices;
} else {
nfactor = 1;
dfactor = 1;
}
sectors_used = Vcb->superblock.bytes_used / Vcb->superblock.sector_size;
*totalsize = (Vcb->superblock.total_bytes / Vcb->superblock.sector_size) * nfactor / dfactor;
*freespace = sectors_used > *totalsize ? 0 : (*totalsize - sectors_used);
}
#ifndef __REACTOS__
// This function exists because we have to lie about our FS type in certain situations.
// MPR!MprGetConnection queries the FS type, and compares it to a whitelist. If it doesn't match,
// it will return ERROR_NO_NET_OR_BAD_PATH, which prevents UAC from working.
// The command mklink refuses to create hard links on anything other than NTFS, so we have to
// blacklist cmd.exe too.
static BOOL lie_about_fs_type() {
NTSTATUS Status;
PROCESS_BASIC_INFORMATION pbi;
PPEB peb;
LIST_ENTRY* le;
ULONG retlen;
static WCHAR mpr[] = L"MPR.DLL";
static WCHAR cmd[] = L"CMD.EXE";
static WCHAR fsutil[] = L"FSUTIL.EXE";
UNICODE_STRING mprus, cmdus, fsutilus;
mprus.Buffer = mpr;
mprus.Length = mprus.MaximumLength = (USHORT)(wcslen(mpr) * sizeof(WCHAR));
cmdus.Buffer = cmd;
cmdus.Length = cmdus.MaximumLength = (USHORT)(wcslen(cmd) * sizeof(WCHAR));
fsutilus.Buffer = fsutil;
fsutilus.Length = fsutilus.MaximumLength = (USHORT)(wcslen(fsutil) * sizeof(WCHAR));
if (!PsGetCurrentProcess())
return FALSE;
Status = ZwQueryInformationProcess(NtCurrentProcess(), ProcessBasicInformation, &pbi, sizeof(pbi), &retlen);
if (!NT_SUCCESS(Status)) {
ERR("ZwQueryInformationProcess returned %08x\n", Status);
return FALSE;
}
if (!pbi.PebBaseAddress)
return FALSE;
peb = pbi.PebBaseAddress;
if (!peb->Ldr)
return FALSE;
le = peb->Ldr->InMemoryOrderModuleList.Flink;
while (le != &peb->Ldr->InMemoryOrderModuleList) {
LDR_DATA_TABLE_ENTRY* entry = CONTAINING_RECORD(le, LDR_DATA_TABLE_ENTRY, InMemoryOrderLinks);
BOOL blacklist = FALSE;
if (entry->FullDllName.Length >= mprus.Length) {
UNICODE_STRING name;
name.Buffer = &entry->FullDllName.Buffer[(entry->FullDllName.Length - mprus.Length) / sizeof(WCHAR)];
name.Length = name.MaximumLength = mprus.Length;
blacklist = FsRtlAreNamesEqual(&name, &mprus, TRUE, NULL);
}
if (!blacklist && entry->FullDllName.Length >= cmdus.Length) {
UNICODE_STRING name;
name.Buffer = &entry->FullDllName.Buffer[(entry->FullDllName.Length - cmdus.Length) / sizeof(WCHAR)];
name.Length = name.MaximumLength = cmdus.Length;
blacklist = FsRtlAreNamesEqual(&name, &cmdus, TRUE, NULL);
}
if (!blacklist && entry->FullDllName.Length >= fsutilus.Length) {
UNICODE_STRING name;
name.Buffer = &entry->FullDllName.Buffer[(entry->FullDllName.Length - fsutilus.Length) / sizeof(WCHAR)];
name.Length = name.MaximumLength = fsutilus.Length;
blacklist = FsRtlAreNamesEqual(&name, &fsutilus, TRUE, NULL);
}
if (blacklist) {
void** frames;
ULONG i, num_frames;
frames = ExAllocatePoolWithTag(PagedPool, 256 * sizeof(void*), ALLOC_TAG);
if (!frames) {
ERR("out of memory\n");
return FALSE;
}
num_frames = RtlWalkFrameChain(frames, 256, 1);
for (i = 0; i < num_frames; i++) {
// entry->Reserved3[1] appears to be the image size
if (frames[i] >= entry->DllBase && (ULONG_PTR)frames[i] <= (ULONG_PTR)entry->DllBase + (ULONG_PTR)entry->Reserved3[1]) {
ExFreePool(frames);
return TRUE;
}
}
ExFreePool(frames);
}
le = le->Flink;
}
return FALSE;
}
#endif
_Dispatch_type_(IRP_MJ_QUERY_VOLUME_INFORMATION)
_Function_class_(DRIVER_DISPATCH)
static NTSTATUS drv_query_volume_information(_In_ PDEVICE_OBJECT DeviceObject, _In_ PIRP Irp) {
PIO_STACK_LOCATION IrpSp;
NTSTATUS Status;
ULONG BytesCopied = 0;
device_extension* Vcb = DeviceObject->DeviceExtension;
BOOL top_level;
FsRtlEnterFileSystem();
TRACE("query volume information\n");
top_level = is_top_level(Irp);
if (Vcb && Vcb->type == VCB_TYPE_VOLUME) {
Status = vol_query_volume_information(DeviceObject, Irp);
goto end;
} else if (!Vcb || Vcb->type != VCB_TYPE_FS) {
Status = STATUS_INVALID_PARAMETER;
goto end;
}
IrpSp = IoGetCurrentIrpStackLocation(Irp);
Status = STATUS_NOT_IMPLEMENTED;
switch (IrpSp->Parameters.QueryVolume.FsInformationClass) {
case FileFsAttributeInformation:
{
FILE_FS_ATTRIBUTE_INFORMATION* data = Irp->AssociatedIrp.SystemBuffer;
BOOL overflow = FALSE;
#ifndef __REACTOS__
WCHAR* fs_name = (Irp->RequestorMode == UserMode && lie_about_fs_type()) ? L"NTFS" : L"Btrfs";
ULONG fs_name_len = (ULONG)wcslen(fs_name) * sizeof(WCHAR);
#else
WCHAR* fs_name = L"Btrfs";
ULONG fs_name_len = 5 * sizeof(WCHAR);
#endif
ULONG orig_fs_name_len = fs_name_len;
TRACE("FileFsAttributeInformation\n");
if (IrpSp->Parameters.QueryVolume.Length < sizeof(FILE_FS_ATTRIBUTE_INFORMATION) - sizeof(WCHAR) + fs_name_len) {
if (IrpSp->Parameters.QueryVolume.Length > sizeof(FILE_FS_ATTRIBUTE_INFORMATION) - sizeof(WCHAR))
fs_name_len = IrpSp->Parameters.QueryVolume.Length - sizeof(FILE_FS_ATTRIBUTE_INFORMATION) + sizeof(WCHAR);
else
fs_name_len = 0;
overflow = TRUE;
}
data->FileSystemAttributes = FILE_CASE_PRESERVED_NAMES | FILE_CASE_SENSITIVE_SEARCH |
FILE_UNICODE_ON_DISK | FILE_NAMED_STREAMS | FILE_SUPPORTS_HARD_LINKS | FILE_PERSISTENT_ACLS |
FILE_SUPPORTS_REPARSE_POINTS | FILE_SUPPORTS_SPARSE_FILES | FILE_SUPPORTS_OBJECT_IDS |
FILE_SUPPORTS_OPEN_BY_FILE_ID | FILE_SUPPORTS_EXTENDED_ATTRIBUTES | FILE_SUPPORTS_BLOCK_REFCOUNTING;
if (Vcb->readonly)
data->FileSystemAttributes |= FILE_READ_ONLY_VOLUME;
// should also be FILE_FILE_COMPRESSION when supported
data->MaximumComponentNameLength = 255; // FIXME - check
data->FileSystemNameLength = orig_fs_name_len;
RtlCopyMemory(data->FileSystemName, fs_name, fs_name_len);
BytesCopied = sizeof(FILE_FS_ATTRIBUTE_INFORMATION) - sizeof(WCHAR) + fs_name_len;
Status = overflow ? STATUS_BUFFER_OVERFLOW : STATUS_SUCCESS;
break;
}
case FileFsDeviceInformation:
{
FILE_FS_DEVICE_INFORMATION* ffdi = Irp->AssociatedIrp.SystemBuffer;
TRACE("FileFsDeviceInformation\n");
ffdi->DeviceType = FILE_DEVICE_DISK;
ExAcquireResourceSharedLite(&Vcb->tree_lock, TRUE);
ffdi->Characteristics = Vcb->Vpb->RealDevice->Characteristics;
ExReleaseResourceLite(&Vcb->tree_lock);
if (Vcb->readonly)
ffdi->Characteristics |= FILE_READ_ONLY_DEVICE;
else
ffdi->Characteristics &= ~FILE_READ_ONLY_DEVICE;
BytesCopied = sizeof(FILE_FS_DEVICE_INFORMATION);
Status = STATUS_SUCCESS;
break;
}
case FileFsFullSizeInformation:
{
FILE_FS_FULL_SIZE_INFORMATION* ffsi = Irp->AssociatedIrp.SystemBuffer;
TRACE("FileFsFullSizeInformation\n");
calculate_total_space(Vcb, (UINT64*)&ffsi->TotalAllocationUnits.QuadPart, (UINT64*)&ffsi->ActualAvailableAllocationUnits.QuadPart);
ffsi->CallerAvailableAllocationUnits.QuadPart = ffsi->ActualAvailableAllocationUnits.QuadPart;
ffsi->SectorsPerAllocationUnit = 1;
ffsi->BytesPerSector = Vcb->superblock.sector_size;
BytesCopied = sizeof(FILE_FS_FULL_SIZE_INFORMATION);
Status = STATUS_SUCCESS;
break;
}
case FileFsObjectIdInformation:
{
FILE_FS_OBJECTID_INFORMATION* ffoi = Irp->AssociatedIrp.SystemBuffer;
TRACE("FileFsObjectIdInformation\n");
RtlCopyMemory(ffoi->ObjectId, &Vcb->superblock.uuid.uuid[0], sizeof(UCHAR) * 16);
RtlZeroMemory(ffoi->ExtendedInfo, sizeof(ffoi->ExtendedInfo));
BytesCopied = sizeof(FILE_FS_OBJECTID_INFORMATION);
Status = STATUS_SUCCESS;
break;
}
case FileFsSizeInformation:
{
FILE_FS_SIZE_INFORMATION* ffsi = Irp->AssociatedIrp.SystemBuffer;
TRACE("FileFsSizeInformation\n");
calculate_total_space(Vcb, (UINT64*)&ffsi->TotalAllocationUnits.QuadPart, (UINT64*)&ffsi->AvailableAllocationUnits.QuadPart);
ffsi->SectorsPerAllocationUnit = 1;
ffsi->BytesPerSector = Vcb->superblock.sector_size;
BytesCopied = sizeof(FILE_FS_SIZE_INFORMATION);
Status = STATUS_SUCCESS;
break;
}
case FileFsVolumeInformation:
{
FILE_FS_VOLUME_INFORMATION* data = Irp->AssociatedIrp.SystemBuffer;
FILE_FS_VOLUME_INFORMATION ffvi;
BOOL overflow = FALSE;
ULONG label_len, orig_label_len;
TRACE("FileFsVolumeInformation\n");
TRACE("max length = %u\n", IrpSp->Parameters.QueryVolume.Length);
ExAcquireResourceSharedLite(&Vcb->tree_lock, TRUE);
Status = RtlUTF8ToUnicodeN(NULL, 0, &label_len, Vcb->superblock.label, (ULONG)strlen(Vcb->superblock.label));
if (!NT_SUCCESS(Status)) {
ERR("RtlUTF8ToUnicodeN returned %08x\n", Status);
ExReleaseResourceLite(&Vcb->tree_lock);
break;
}
orig_label_len = label_len;
if (IrpSp->Parameters.QueryVolume.Length < sizeof(FILE_FS_VOLUME_INFORMATION) - sizeof(WCHAR) + label_len) {
if (IrpSp->Parameters.QueryVolume.Length > sizeof(FILE_FS_VOLUME_INFORMATION) - sizeof(WCHAR))
label_len = IrpSp->Parameters.QueryVolume.Length - sizeof(FILE_FS_VOLUME_INFORMATION) + sizeof(WCHAR);
else
label_len = 0;
overflow = TRUE;
}
TRACE("label_len = %u\n", label_len);
ffvi.VolumeCreationTime.QuadPart = 0; // FIXME
ffvi.VolumeSerialNumber = Vcb->superblock.uuid.uuid[12] << 24 | Vcb->superblock.uuid.uuid[13] << 16 | Vcb->superblock.uuid.uuid[14] << 8 | Vcb->superblock.uuid.uuid[15];
ffvi.VolumeLabelLength = orig_label_len;
ffvi.SupportsObjects = FALSE;
RtlCopyMemory(data, &ffvi, min(sizeof(FILE_FS_VOLUME_INFORMATION) - sizeof(WCHAR), IrpSp->Parameters.QueryVolume.Length));
if (label_len > 0) {
ULONG bytecount;
Status = RtlUTF8ToUnicodeN(&data->VolumeLabel[0], label_len, &bytecount, Vcb->superblock.label, (ULONG)strlen(Vcb->superblock.label));
if (!NT_SUCCESS(Status) && Status != STATUS_BUFFER_TOO_SMALL) {
ERR("RtlUTF8ToUnicodeN returned %08x\n", Status);
ExReleaseResourceLite(&Vcb->tree_lock);
break;
}
TRACE("label = %.*S\n", label_len / sizeof(WCHAR), data->VolumeLabel);
}
ExReleaseResourceLite(&Vcb->tree_lock);
BytesCopied = sizeof(FILE_FS_VOLUME_INFORMATION) - sizeof(WCHAR) + label_len;
Status = overflow ? STATUS_BUFFER_OVERFLOW : STATUS_SUCCESS;
break;
}
#ifndef __REACTOS__
#ifdef _MSC_VER // not in mingw yet
case FileFsSectorSizeInformation:
{
FILE_FS_SECTOR_SIZE_INFORMATION* data = Irp->AssociatedIrp.SystemBuffer;
data->LogicalBytesPerSector = Vcb->superblock.sector_size;
data->PhysicalBytesPerSectorForAtomicity = Vcb->superblock.sector_size;
data->PhysicalBytesPerSectorForPerformance = Vcb->superblock.sector_size;
data->FileSystemEffectivePhysicalBytesPerSectorForAtomicity = Vcb->superblock.sector_size;
data->ByteOffsetForSectorAlignment = 0;
data->ByteOffsetForPartitionAlignment = 0;
data->Flags = SSINFO_FLAGS_ALIGNED_DEVICE | SSINFO_FLAGS_PARTITION_ALIGNED_ON_DEVICE;
if (Vcb->trim && !Vcb->options.no_trim)
data->Flags |= SSINFO_FLAGS_TRIM_ENABLED;
BytesCopied = sizeof(FILE_FS_SECTOR_SIZE_INFORMATION);
break;
}
#endif
#endif /* __REACTOS__ */
default:
Status = STATUS_INVALID_PARAMETER;
WARN("unknown FsInformationClass %u\n", IrpSp->Parameters.QueryVolume.FsInformationClass);
break;
}
if (!NT_SUCCESS(Status) && Status != STATUS_BUFFER_OVERFLOW)
Irp->IoStatus.Information = 0;
else
Irp->IoStatus.Information = BytesCopied;
end:
Irp->IoStatus.Status = Status;
IoCompleteRequest( Irp, IO_DISK_INCREMENT );
if (top_level)
IoSetTopLevelIrp(NULL);
TRACE("query volume information returning %08x\n", Status);
FsRtlExitFileSystem();
return Status;
}
_Function_class_(IO_COMPLETION_ROUTINE)
#ifdef __REACTOS__
static NTSTATUS NTAPI read_completion(_In_ PDEVICE_OBJECT DeviceObject, _In_ PIRP Irp, _In_ PVOID conptr) {
#else
static NTSTATUS read_completion(_In_ PDEVICE_OBJECT DeviceObject, _In_ PIRP Irp, _In_ PVOID conptr) {
#endif
read_context* context = conptr;
UNUSED(DeviceObject);
context->iosb = Irp->IoStatus;
KeSetEvent(&context->Event, 0, FALSE);
return STATUS_MORE_PROCESSING_REQUIRED;
}
NTSTATUS create_root(_In_ _Requires_exclusive_lock_held_(_Curr_->tree_lock) device_extension* Vcb, _In_ UINT64 id,
_Out_ root** rootptr, _In_ BOOL no_tree, _In_ UINT64 offset, _In_opt_ PIRP Irp) {
NTSTATUS Status;
root* r;
tree* t = NULL;
ROOT_ITEM* ri;
traverse_ptr tp;
r = ExAllocatePoolWithTag(PagedPool, sizeof(root), ALLOC_TAG);
if (!r) {
ERR("out of memory\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
r->nonpaged = ExAllocatePoolWithTag(NonPagedPool, sizeof(root_nonpaged), ALLOC_TAG);
if (!r->nonpaged) {
ERR("out of memory\n");
ExFreePool(r);
return STATUS_INSUFFICIENT_RESOURCES;
}
if (!no_tree) {
t = ExAllocatePoolWithTag(PagedPool, sizeof(tree), ALLOC_TAG);
if (!t) {
ERR("out of memory\n");
ExFreePool(r->nonpaged);
ExFreePool(r);
return STATUS_INSUFFICIENT_RESOURCES;
}
t->is_unique = TRUE;
t->uniqueness_determined = TRUE;
t->buf = NULL;
}
ri = ExAllocatePoolWithTag(PagedPool, sizeof(ROOT_ITEM), ALLOC_TAG);
if (!ri) {
ERR("out of memory\n");
if (t)
ExFreePool(t);
ExFreePool(r->nonpaged);
ExFreePool(r);
return STATUS_INSUFFICIENT_RESOURCES;
}
r->id = id;
r->treeholder.address = 0;
r->treeholder.generation = Vcb->superblock.generation;
r->treeholder.tree = t;
r->lastinode = 0;
r->dirty = FALSE;
r->received = FALSE;
r->reserved = NULL;
r->parent = 0;
r->send_ops = 0;
RtlZeroMemory(&r->root_item, sizeof(ROOT_ITEM));
r->root_item.num_references = 1;
InitializeListHead(&r->fcbs);
RtlCopyMemory(ri, &r->root_item, sizeof(ROOT_ITEM));
// We ask here for a traverse_ptr to the item we're inserting, so we can
// copy some of the tree's variables
Status = insert_tree_item(Vcb, Vcb->root_root, id, TYPE_ROOT_ITEM, offset, ri, sizeof(ROOT_ITEM), &tp, Irp);
if (!NT_SUCCESS(Status)) {
ERR("insert_tree_item returned %08x\n", Status);
ExFreePool(ri);
if (t)
ExFreePool(t);
ExFreePool(r->nonpaged);
ExFreePool(r);
return Status;
}
ExInitializeResourceLite(&r->nonpaged->load_tree_lock);
InsertTailList(&Vcb->roots, &r->list_entry);
if (!no_tree) {
RtlZeroMemory(&t->header, sizeof(tree_header));
t->header.fs_uuid = tp.tree->header.fs_uuid;
t->header.address = 0;
t->header.flags = HEADER_FLAG_MIXED_BACKREF | 1; // 1 == "written"? Why does the Linux driver record this?
t->header.chunk_tree_uuid = tp.tree->header.chunk_tree_uuid;
t->header.generation = Vcb->superblock.generation;
t->header.tree_id = id;
t->header.num_items = 0;
t->header.level = 0;
t->has_address = FALSE;
t->size = 0;
t->Vcb = Vcb;
t->parent = NULL;
t->paritem = NULL;
t->root = r;
InitializeListHead(&t->itemlist);
t->new_address = 0;
t->has_new_address = FALSE;
t->updated_extents = FALSE;
InsertTailList(&Vcb->trees, &t->list_entry);
t->list_entry_hash.Flink = NULL;
t->write = TRUE;
Vcb->need_write = TRUE;
}
*rootptr = r;
return STATUS_SUCCESS;
}
static NTSTATUS set_label(_In_ device_extension* Vcb, _In_ FILE_FS_LABEL_INFORMATION* ffli) {
ULONG utf8len;
NTSTATUS Status;
ULONG vollen, i;
TRACE("label = %.*S\n", ffli->VolumeLabelLength / sizeof(WCHAR), ffli->VolumeLabel);
vollen = ffli->VolumeLabelLength;
for (i = 0; i < ffli->VolumeLabelLength / sizeof(WCHAR); i++) {
if (ffli->VolumeLabel[i] == 0) {
vollen = i * sizeof(WCHAR);
break;
} else if (ffli->VolumeLabel[i] == '/' || ffli->VolumeLabel[i] == '\\') {
Status = STATUS_INVALID_VOLUME_LABEL;
goto end;
}
}
if (vollen == 0) {
utf8len = 0;
} else {
Status = RtlUnicodeToUTF8N(NULL, 0, &utf8len, ffli->VolumeLabel, vollen);
if (!NT_SUCCESS(Status))
goto end;
if (utf8len > MAX_LABEL_SIZE) {
Status = STATUS_INVALID_VOLUME_LABEL;
goto end;
}
}
ExAcquireResourceExclusiveLite(&Vcb->tree_lock, TRUE);
if (utf8len > 0) {
Status = RtlUnicodeToUTF8N((PCHAR)&Vcb->superblock.label, MAX_LABEL_SIZE, &utf8len, ffli->VolumeLabel, vollen);
if (!NT_SUCCESS(Status))
goto release;
} else
Status = STATUS_SUCCESS;
if (utf8len < MAX_LABEL_SIZE)
RtlZeroMemory(Vcb->superblock.label + utf8len, MAX_LABEL_SIZE - utf8len);
Vcb->need_write = TRUE;
release:
ExReleaseResourceLite(&Vcb->tree_lock);
end:
TRACE("returning %08x\n", Status);
return Status;
}
_Dispatch_type_(IRP_MJ_SET_VOLUME_INFORMATION)
_Function_class_(DRIVER_DISPATCH)
static NTSTATUS drv_set_volume_information(_In_ PDEVICE_OBJECT DeviceObject, _In_ PIRP Irp) {
PIO_STACK_LOCATION IrpSp = IoGetCurrentIrpStackLocation(Irp);
device_extension* Vcb = DeviceObject->DeviceExtension;
NTSTATUS Status;
BOOL top_level;
FsRtlEnterFileSystem();
TRACE("set volume information\n");
top_level = is_top_level(Irp);
if (Vcb && Vcb->type == VCB_TYPE_VOLUME) {
Status = vol_set_volume_information(DeviceObject, Irp);
goto end;
} else if (!Vcb || Vcb->type != VCB_TYPE_FS) {
Status = STATUS_INVALID_PARAMETER;
goto end;
}
Status = STATUS_NOT_IMPLEMENTED;
if (Vcb->readonly) {
Status = STATUS_MEDIA_WRITE_PROTECTED;
goto end;
}
if (Vcb->removing || Vcb->locked) {
Status = STATUS_ACCESS_DENIED;
goto end;
}
switch (IrpSp->Parameters.SetVolume.FsInformationClass) {
case FileFsControlInformation:
FIXME("STUB: FileFsControlInformation\n");
break;
case FileFsLabelInformation:
TRACE("FileFsLabelInformation\n");
Status = set_label(Vcb, Irp->AssociatedIrp.SystemBuffer);
break;
case FileFsObjectIdInformation:
FIXME("STUB: FileFsObjectIdInformation\n");
break;
default:
WARN("Unrecognized FsInformationClass 0x%x\n", IrpSp->Parameters.SetVolume.FsInformationClass);
break;
}
end:
Irp->IoStatus.Status = Status;
Irp->IoStatus.Information = 0;
TRACE("returning %08x\n", Status);
IoCompleteRequest( Irp, IO_NO_INCREMENT );
if (top_level)
IoSetTopLevelIrp(NULL);
FsRtlExitFileSystem();
return Status;
}
static WCHAR* file_desc_fcb(_In_ fcb* fcb) {
char s[60];
NTSTATUS Status;
UNICODE_STRING us;
ANSI_STRING as;
if (fcb->debug_desc)
return fcb->debug_desc;
if (fcb == fcb->Vcb->volume_fcb)
return L"volume FCB";
fcb->debug_desc = ExAllocatePoolWithTag(PagedPool, 60 * sizeof(WCHAR), ALLOC_TAG);
if (!fcb->debug_desc)
return L"(memory error)";
// I know this is pretty hackish...
// GCC doesn't like %llx in sprintf, and MSVC won't let us use swprintf
// without the CRT, which breaks drivers.
sprintf(s, "subvol %x, inode %x", (UINT32)fcb->subvol->id, (UINT32)fcb->inode);
as.Buffer = s;
as.Length = as.MaximumLength = (USHORT)strlen(s);
us.Buffer = fcb->debug_desc;
us.MaximumLength = 60 * sizeof(WCHAR);
us.Length = 0;
Status = RtlAnsiStringToUnicodeString(&us, &as, FALSE);
if (!NT_SUCCESS(Status))
return L"(RtlAnsiStringToUnicodeString error)";
us.Buffer[us.Length / sizeof(WCHAR)] = 0;
return fcb->debug_desc;
}
WCHAR* file_desc_fileref(_In_ file_ref* fileref) {
NTSTATUS Status;
UNICODE_STRING fn;
ULONG reqlen;
if (fileref->debug_desc)
return fileref->debug_desc;
fn.Length = fn.MaximumLength = 0;
Status = fileref_get_filename(fileref, &fn, NULL, &reqlen);
if (Status != STATUS_BUFFER_OVERFLOW)
return L"ERROR";
if (reqlen > 0xffff - sizeof(WCHAR))
return L"(too long)";
fileref->debug_desc = ExAllocatePoolWithTag(PagedPool, reqlen + sizeof(WCHAR), ALLOC_TAG);
if (!fileref->debug_desc)
return L"(memory error)";
fn.Buffer = fileref->debug_desc;
fn.Length = 0;
fn.MaximumLength = (USHORT)(reqlen + sizeof(WCHAR));
Status = fileref_get_filename(fileref, &fn, NULL, &reqlen);
if (!NT_SUCCESS(Status)) {
ExFreePool(fileref->debug_desc);
fileref->debug_desc = NULL;
return L"ERROR";
}
fileref->debug_desc[fn.Length / sizeof(WCHAR)] = 0;
return fileref->debug_desc;
}
_Ret_z_
WCHAR* file_desc(_In_ PFILE_OBJECT FileObject) {
fcb* fcb = FileObject->FsContext;
ccb* ccb = FileObject->FsContext2;
file_ref* fileref = ccb ? ccb->fileref : NULL;
if (fileref)
return file_desc_fileref(fileref);
else
return file_desc_fcb(fcb);
}
void send_notification_fileref(_In_ file_ref* fileref, _In_ ULONG filter_match, _In_ ULONG action, _In_opt_ PUNICODE_STRING stream) {
UNICODE_STRING fn;
NTSTATUS Status;
ULONG reqlen;
USHORT name_offset;
fcb* fcb = fileref->fcb;
fn.Length = fn.MaximumLength = 0;
Status = fileref_get_filename(fileref, &fn, NULL, &reqlen);
if (Status != STATUS_BUFFER_OVERFLOW) {
ERR("fileref_get_filename returned %08x\n", Status);
return;
}
if (reqlen > 0xffff) {
WARN("reqlen was too long for FsRtlNotifyFilterReportChange\n");
return;
}
fn.Buffer = ExAllocatePoolWithTag(PagedPool, reqlen, ALLOC_TAG);
if (!fn.Buffer) {
ERR("out of memory\n");
return;
}
fn.MaximumLength = (USHORT)reqlen;
fn.Length = 0;
Status = fileref_get_filename(fileref, &fn, &name_offset, &reqlen);
if (!NT_SUCCESS(Status)) {
ERR("fileref_get_filename returned %08x\n", Status);
ExFreePool(fn.Buffer);
return;
}
FsRtlNotifyFilterReportChange(fcb->Vcb->NotifySync, &fcb->Vcb->DirNotifyList, (PSTRING)&fn, name_offset,
(PSTRING)stream, NULL, filter_match, action, NULL, NULL);
ExFreePool(fn.Buffer);
}
void send_notification_fcb(_In_ file_ref* fileref, _In_ ULONG filter_match, _In_ ULONG action, _In_opt_ PUNICODE_STRING stream) {
fcb* fcb = fileref->fcb;
LIST_ENTRY* le;
NTSTATUS Status;
// no point looking for hardlinks if st_nlink == 1
if (fileref->fcb->inode_item.st_nlink == 1) {
send_notification_fileref(fileref, filter_match, action, stream);
return;
}
ExAcquireResourceExclusiveLite(&fcb->Vcb->fcb_lock, TRUE);
le = fcb->hardlinks.Flink;
while (le != &fcb->hardlinks) {
hardlink* hl = CONTAINING_RECORD(le, hardlink, list_entry);
file_ref* parfr;
Status = open_fileref_by_inode(fcb->Vcb, fcb->subvol, hl->parent, &parfr, NULL);
if (!NT_SUCCESS(Status))
ERR("open_fileref_by_inode returned %08x\n", Status);
else if (!parfr->deleted) {
UNICODE_STRING fn;
ULONG pathlen;
fn.Length = fn.MaximumLength = 0;
Status = fileref_get_filename(parfr, &fn, NULL, &pathlen);
if (Status != STATUS_BUFFER_OVERFLOW) {
ERR("fileref_get_filename returned %08x\n", Status);
free_fileref(fcb->Vcb, parfr);
break;
}
if (parfr != fcb->Vcb->root_fileref)
pathlen += sizeof(WCHAR);
if (pathlen + hl->name.Length > 0xffff) {
WARN("pathlen + hl->name.Length was too long for FsRtlNotifyFilterReportChange\n");
free_fileref(fcb->Vcb, parfr);
break;
}
fn.MaximumLength = (USHORT)(pathlen + hl->name.Length);
fn.Buffer = ExAllocatePoolWithTag(PagedPool, fn.MaximumLength, ALLOC_TAG);
if (!fn.Buffer) {
ERR("out of memory\n");
free_fileref(fcb->Vcb, parfr);
break;
}
Status = fileref_get_filename(parfr, &fn, NULL, NULL);
if (!NT_SUCCESS(Status)) {
ERR("fileref_get_filename returned %08x\n", Status);
free_fileref(fcb->Vcb, parfr);
ExFreePool(fn.Buffer);
break;
}
if (parfr != fcb->Vcb->root_fileref) {
fn.Buffer[(pathlen / sizeof(WCHAR)) - 1] = '\\';
fn.Length += sizeof(WCHAR);
}
RtlCopyMemory(&fn.Buffer[pathlen / sizeof(WCHAR)], hl->name.Buffer, hl->name.Length);
fn.Length += hl->name.Length;
FsRtlNotifyFilterReportChange(fcb->Vcb->NotifySync, &fcb->Vcb->DirNotifyList, (PSTRING)&fn, (USHORT)pathlen,
(PSTRING)stream, NULL, filter_match, action, NULL, NULL);
ExFreePool(fn.Buffer);
free_fileref(fcb->Vcb, parfr);
}
le = le->Flink;
}
ExReleaseResourceLite(&fcb->Vcb->fcb_lock);
}
void mark_fcb_dirty(_In_ fcb* fcb) {
if (!fcb->dirty) {
#ifdef DEBUG_FCB_REFCOUNTS
LONG rc;
#endif
fcb->dirty = TRUE;
#ifdef DEBUG_FCB_REFCOUNTS
rc = InterlockedIncrement(&fcb->refcount);
WARN("fcb %p: refcount now %i\n", fcb, rc);
#else
InterlockedIncrement(&fcb->refcount);
#endif
ExAcquireResourceExclusiveLite(&fcb->Vcb->dirty_fcbs_lock, TRUE);
InsertTailList(&fcb->Vcb->dirty_fcbs, &fcb->list_entry_dirty);
ExReleaseResourceLite(&fcb->Vcb->dirty_fcbs_lock);
}
fcb->Vcb->need_write = TRUE;
}
void mark_fileref_dirty(_In_ file_ref* fileref) {
if (!fileref->dirty) {
fileref->dirty = TRUE;
increase_fileref_refcount(fileref);
ExAcquireResourceExclusiveLite(&fileref->fcb->Vcb->dirty_filerefs_lock, TRUE);
InsertTailList(&fileref->fcb->Vcb->dirty_filerefs, &fileref->list_entry_dirty);
ExReleaseResourceLite(&fileref->fcb->Vcb->dirty_filerefs_lock);
}
fileref->fcb->Vcb->need_write = TRUE;
}
#ifdef DEBUG_FCB_REFCOUNTS
void _free_fcb(_Requires_exclusive_lock_held_(_Curr_->fcb_lock) _In_ device_extension* Vcb, _Inout_ fcb* fcb, _In_ const char* func) {
#else
void free_fcb(_Requires_exclusive_lock_held_(_Curr_->fcb_lock) _In_ device_extension* Vcb, _Inout_ fcb* fcb) {
#endif
LONG rc;
rc = InterlockedDecrement(&fcb->refcount);
#ifdef DEBUG_FCB_REFCOUNTS
#ifdef DEBUG_LONG_MESSAGES
ERR("fcb %p: refcount now %i (subvol %llx, inode %llx)\n", fcb, rc, fcb->subvol ? fcb->subvol->id : 0, fcb->inode);
#else
ERR("fcb %p: refcount now %i (subvol %llx, inode %llx)\n", fcb, rc, fcb->subvol ? fcb->subvol->id : 0, fcb->inode);
#endif
#endif
if (rc > 0)
return;
if (fcb->list_entry.Flink)
RemoveEntryList(&fcb->list_entry);
if (fcb->list_entry_all.Flink)
RemoveEntryList(&fcb->list_entry_all);
ExDeleteResourceLite(&fcb->nonpaged->resource);
ExDeleteResourceLite(&fcb->nonpaged->paging_resource);
ExDeleteResourceLite(&fcb->nonpaged->dir_children_lock);
ExFreeToNPagedLookasideList(&Vcb->fcb_np_lookaside, fcb->nonpaged);
if (fcb->sd)
ExFreePool(fcb->sd);
if (fcb->adsxattr.Buffer)
ExFreePool(fcb->adsxattr.Buffer);
if (fcb->reparse_xattr.Buffer)
ExFreePool(fcb->reparse_xattr.Buffer);
if (fcb->ea_xattr.Buffer)
ExFreePool(fcb->ea_xattr.Buffer);
if (fcb->adsdata.Buffer)
ExFreePool(fcb->adsdata.Buffer);
if (fcb->debug_desc)
ExFreePool(fcb->debug_desc);
while (!IsListEmpty(&fcb->extents)) {
LIST_ENTRY* le = RemoveHeadList(&fcb->extents);
extent* ext = CONTAINING_RECORD(le, extent, list_entry);
if (ext->csum)
ExFreePool(ext->csum);
ExFreePool(ext);
}
while (!IsListEmpty(&fcb->hardlinks)) {
LIST_ENTRY* le = RemoveHeadList(&fcb->hardlinks);
hardlink* hl = CONTAINING_RECORD(le, hardlink, list_entry);
if (hl->name.Buffer)
ExFreePool(hl->name.Buffer);
if (hl->utf8.Buffer)
ExFreePool(hl->utf8.Buffer);
ExFreePool(hl);
}
while (!IsListEmpty(&fcb->xattrs)) {
xattr* xa = CONTAINING_RECORD(RemoveHeadList(&fcb->xattrs), xattr, list_entry);
ExFreePool(xa);
}
while (!IsListEmpty(&fcb->dir_children_index)) {
LIST_ENTRY* le = RemoveHeadList(&fcb->dir_children_index);
dir_child* dc = CONTAINING_RECORD(le, dir_child, list_entry_index);
ExFreePool(dc->utf8.Buffer);
ExFreePool(dc->name.Buffer);
ExFreePool(dc->name_uc.Buffer);
ExFreePool(dc);
}
if (fcb->hash_ptrs)
ExFreePool(fcb->hash_ptrs);
if (fcb->hash_ptrs_uc)
ExFreePool(fcb->hash_ptrs_uc);
FsRtlUninitializeFileLock(&fcb->lock);
if (fcb->pool_type == NonPagedPool)
ExFreePool(fcb);
else
ExFreeToPagedLookasideList(&Vcb->fcb_lookaside, fcb);
#ifdef DEBUG_FCB_REFCOUNTS
#ifdef DEBUG_LONG_MESSAGES
_debug_message(func, file, line, "freeing fcb %p\n", fcb);
#else
_debug_message(func, "freeing fcb %p\n", fcb);
#endif
#endif
}
void free_fileref(_Requires_exclusive_lock_held_(_Curr_->fcb_lock) _In_ device_extension* Vcb, _Inout_ file_ref* fr) {
LONG rc;
rc = InterlockedDecrement(&fr->refcount);
#ifdef DEBUG_FCB_REFCOUNTS
ERR("fileref %p: refcount now %i\n", fr, rc);
#endif
#ifdef _DEBUG
if (rc < 0) {
ERR("fileref %p: refcount now %i\n", fr, rc);
int3;
}
#endif
if (rc > 0)
return;
if (fr->parent)
ExAcquireResourceExclusiveLite(&fr->parent->nonpaged->children_lock, TRUE);
// FIXME - do we need a file_ref lock?
// FIXME - do delete if needed
if (fr->debug_desc)
ExFreePool(fr->debug_desc);
ExDeleteResourceLite(&fr->nonpaged->children_lock);
ExDeleteResourceLite(&fr->nonpaged->fileref_lock);
ExFreeToNPagedLookasideList(&Vcb->fileref_np_lookaside, fr->nonpaged);
// FIXME - throw error if children not empty
if (fr->fcb->fileref == fr)
fr->fcb->fileref = NULL;
if (fr->dc) {
if (fr->fcb->ads)
fr->dc->size = fr->fcb->adsdata.Length;
fr->dc->fileref = NULL;
}
if (fr->list_entry.Flink)
RemoveEntryList(&fr->list_entry);
if (fr->parent) {
ExReleaseResourceLite(&fr->parent->nonpaged->children_lock);
free_fileref(Vcb, fr->parent);
}
free_fcb(Vcb, fr->fcb);
ExFreeToPagedLookasideList(&Vcb->fileref_lookaside, fr);
}
static NTSTATUS close_file(_In_ PFILE_OBJECT FileObject, _In_ PIRP Irp) {
fcb* fcb;
ccb* ccb;
file_ref* fileref = NULL;
LONG open_files;
device_extension* Vcb;
UNUSED(Irp);
TRACE("FileObject = %p\n", FileObject);
fcb = FileObject->FsContext;
if (!fcb) {
TRACE("FCB was NULL, returning success\n");
return STATUS_SUCCESS;
}
open_files = InterlockedDecrement(&fcb->Vcb->open_files);
ccb = FileObject->FsContext2;
TRACE("close called for %S (fcb == %p)\n", file_desc(FileObject), fcb);
// FIXME - make sure notification gets sent if file is being deleted
if (ccb) {
if (ccb->query_string.Buffer)
RtlFreeUnicodeString(&ccb->query_string);
if (ccb->filename.Buffer)
ExFreePool(ccb->filename.Buffer);
// FIXME - use refcounts for fileref
fileref = ccb->fileref;
if (fcb->Vcb->running_sends > 0) {
BOOL send_cancelled = FALSE;
ExAcquireResourceExclusiveLite(&fcb->Vcb->send_load_lock, TRUE);
if (ccb->send) {
ccb->send->cancelling = TRUE;
send_cancelled = TRUE;
KeSetEvent(&ccb->send->cleared_event, 0, FALSE);
}
ExReleaseResourceLite(&fcb->Vcb->send_load_lock);
if (send_cancelled) {
while (ccb->send) {
ExAcquireResourceExclusiveLite(&fcb->Vcb->send_load_lock, TRUE);
ExReleaseResourceLite(&fcb->Vcb->send_load_lock);
}
}
}
ExFreePool(ccb);
}
CcUninitializeCacheMap(FileObject, NULL, NULL);
if (open_files == 0 && fcb->Vcb->removing) {
uninit(fcb->Vcb, FALSE);
return STATUS_SUCCESS;
}
if (!(fcb->Vcb->Vpb->Flags & VPB_MOUNTED))
return STATUS_SUCCESS;
Vcb = fcb->Vcb;
ExAcquireResourceExclusiveLite(&Vcb->fcb_lock, TRUE);
if (fileref)
free_fileref(fcb->Vcb, fileref);
else
free_fcb(Vcb, fcb);
ExReleaseResourceLite(&Vcb->fcb_lock);
return STATUS_SUCCESS;
}
void uninit(_In_ device_extension* Vcb, _In_ BOOL flush) {
UINT64 i;
NTSTATUS Status;
LIST_ENTRY* le;
LARGE_INTEGER time;
if (!Vcb->removing) {
ExAcquireResourceExclusiveLite(&Vcb->tree_lock, TRUE);
Vcb->removing = TRUE;
ExReleaseResourceLite(&Vcb->tree_lock);
}
RemoveEntryList(&Vcb->list_entry);
if (Vcb->balance.thread) {
Vcb->balance.paused = FALSE;
Vcb->balance.stopping = TRUE;
KeSetEvent(&Vcb->balance.event, 0, FALSE);
KeWaitForSingleObject(&Vcb->balance.finished, Executive, KernelMode, FALSE, NULL);
}
if (Vcb->scrub.thread) {
Vcb->scrub.paused = FALSE;
Vcb->scrub.stopping = TRUE;
KeSetEvent(&Vcb->scrub.event, 0, FALSE);
KeWaitForSingleObject(&Vcb->scrub.finished, Executive, KernelMode, FALSE, NULL);
}
if (Vcb->running_sends != 0) {
BOOL send_cancelled = FALSE;
ExAcquireResourceExclusiveLite(&Vcb->send_load_lock, TRUE);
le = Vcb->send_ops.Flink;
while (le != &Vcb->send_ops) {
send_info* send = CONTAINING_RECORD(le, send_info, list_entry);
if (!send->cancelling) {
send->cancelling = TRUE;
send_cancelled = TRUE;
send->ccb = NULL;
KeSetEvent(&send->cleared_event, 0, FALSE);
}
le = le->Flink;
}
ExReleaseResourceLite(&Vcb->send_load_lock);
if (send_cancelled) {
while (Vcb->running_sends != 0) {
ExAcquireResourceExclusiveLite(&Vcb->send_load_lock, TRUE);
ExReleaseResourceLite(&Vcb->send_load_lock);
}
}
}
Status = registry_mark_volume_unmounted(&Vcb->superblock.uuid);
if (!NT_SUCCESS(Status) && Status != STATUS_TOO_LATE)
WARN("registry_mark_volume_unmounted returned %08x\n", Status);
if (flush) {
ExAcquireResourceExclusiveLite(&Vcb->tree_lock, TRUE);
if (Vcb->need_write && !Vcb->readonly) {
Status = do_write(Vcb, NULL);
if (!NT_SUCCESS(Status))
ERR("do_write returned %08x\n", Status);
}
free_trees(Vcb);
ExReleaseResourceLite(&Vcb->tree_lock);
}
for (i = 0; i < Vcb->calcthreads.num_threads; i++) {
Vcb->calcthreads.threads[i].quit = TRUE;
}
KeSetEvent(&Vcb->calcthreads.event, 0, FALSE);
for (i = 0; i < Vcb->calcthreads.num_threads; i++) {
KeWaitForSingleObject(&Vcb->calcthreads.threads[i].finished, Executive, KernelMode, FALSE, NULL);
ZwClose(Vcb->calcthreads.threads[i].handle);
}
ExDeleteResourceLite(&Vcb->calcthreads.lock);
ExFreePool(Vcb->calcthreads.threads);
time.QuadPart = 0;
KeSetTimer(&Vcb->flush_thread_timer, time, NULL); // trigger the timer early
KeWaitForSingleObject(&Vcb->flush_thread_finished, Executive, KernelMode, FALSE, NULL);
ExAcquireResourceExclusiveLite(&Vcb->fcb_lock, TRUE);
free_fcb(Vcb, Vcb->volume_fcb);
free_fcb(Vcb, Vcb->dummy_fcb);
ExReleaseResourceLite(&Vcb->fcb_lock);
if (Vcb->root_file)
ObDereferenceObject(Vcb->root_file);
le = Vcb->chunks.Flink;
while (le != &Vcb->chunks) {
chunk* c = CONTAINING_RECORD(le, chunk, list_entry);
if (c->cache) {
ExAcquireResourceExclusiveLite(&Vcb->fcb_lock, TRUE);
free_fcb(Vcb, c->cache);
ExReleaseResourceLite(&Vcb->fcb_lock);
c->cache = NULL;
}
le = le->Flink;
}
while (!IsListEmpty(&Vcb->roots)) {
root* r = CONTAINING_RECORD(RemoveHeadList(&Vcb->roots), root, list_entry);
ExDeleteResourceLite(&r->nonpaged->load_tree_lock);
ExFreePool(r->nonpaged);
ExFreePool(r);
}
while (!IsListEmpty(&Vcb->chunks)) {
chunk* c = CONTAINING_RECORD(RemoveHeadList(&Vcb->chunks), chunk, list_entry);
while (!IsListEmpty(&c->space)) {
LIST_ENTRY* le2 = RemoveHeadList(&c->space);
space* s = CONTAINING_RECORD(le2, space, list_entry);
ExFreePool(s);
}
while (!IsListEmpty(&c->deleting)) {
LIST_ENTRY* le2 = RemoveHeadList(&c->deleting);
space* s = CONTAINING_RECORD(le2, space, list_entry);
ExFreePool(s);
}
if (c->devices)
ExFreePool(c->devices);
if (c->cache) {
ExAcquireResourceExclusiveLite(&Vcb->fcb_lock, TRUE);
free_fcb(Vcb, c->cache);
ExReleaseResourceLite(&Vcb->fcb_lock);
}
ExDeleteResourceLite(&c->range_locks_lock);
ExDeleteResourceLite(&c->partial_stripes_lock);
ExDeleteResourceLite(&c->lock);
ExDeleteResourceLite(&c->changed_extents_lock);
ExFreePool(c->chunk_item);
ExFreePool(c);
}
// FIXME - free any open fcbs?
while (!IsListEmpty(&Vcb->devices)) {
device* dev = CONTAINING_RECORD(RemoveHeadList(&Vcb->devices), device, list_entry);
while (!IsListEmpty(&dev->space)) {
LIST_ENTRY* le2 = RemoveHeadList(&dev->space);
space* s = CONTAINING_RECORD(le2, space, list_entry);
ExFreePool(s);
}
ExFreePool(dev);
}
ExAcquireResourceExclusiveLite(&Vcb->scrub.stats_lock, TRUE);
while (!IsListEmpty(&Vcb->scrub.errors)) {
scrub_error* err = CONTAINING_RECORD(RemoveHeadList(&Vcb->scrub.errors), scrub_error, list_entry);
ExFreePool(err);
}
ExReleaseResourceLite(&Vcb->scrub.stats_lock);
ExDeleteResourceLite(&Vcb->fcb_lock);
ExDeleteResourceLite(&Vcb->load_lock);
ExDeleteResourceLite(&Vcb->tree_lock);
ExDeleteResourceLite(&Vcb->chunk_lock);
ExDeleteResourceLite(&Vcb->dirty_fcbs_lock);
ExDeleteResourceLite(&Vcb->dirty_filerefs_lock);
ExDeleteResourceLite(&Vcb->dirty_subvols_lock);
ExDeleteResourceLite(&Vcb->scrub.stats_lock);
ExDeleteResourceLite(&Vcb->send_load_lock);
ExDeletePagedLookasideList(&Vcb->tree_data_lookaside);
ExDeletePagedLookasideList(&Vcb->traverse_ptr_lookaside);
ExDeletePagedLookasideList(&Vcb->batch_item_lookaside);
ExDeletePagedLookasideList(&Vcb->fileref_lookaside);
ExDeletePagedLookasideList(&Vcb->fcb_lookaside);
ExDeletePagedLookasideList(&Vcb->name_bit_lookaside);
ExDeleteNPagedLookasideList(&Vcb->range_lock_lookaside);
ExDeleteNPagedLookasideList(&Vcb->fileref_np_lookaside);
ExDeleteNPagedLookasideList(&Vcb->fcb_np_lookaside);
ZwClose(Vcb->flush_thread_handle);
}
NTSTATUS delete_fileref(_In_ file_ref* fileref, _In_ PFILE_OBJECT FileObject, _In_opt_ PIRP Irp, _In_ LIST_ENTRY* rollback) {
LARGE_INTEGER newlength, time;
BTRFS_TIME now;
NTSTATUS Status;
ULONG utf8len = 0;
KeQuerySystemTime(&time);
win_time_to_unix(time, &now);
ExAcquireResourceExclusiveLite(fileref->fcb->Header.Resource, TRUE);
if (fileref->deleted) {
ExReleaseResourceLite(fileref->fcb->Header.Resource);
return STATUS_SUCCESS;
}
if (fileref->fcb->subvol->send_ops > 0) {
ExReleaseResourceLite(fileref->fcb->Header.Resource);
return STATUS_ACCESS_DENIED;
}
fileref->deleted = TRUE;
mark_fileref_dirty(fileref);
// delete INODE_ITEM (0x1)
TRACE("nlink = %u\n", fileref->fcb->inode_item.st_nlink);
if (!fileref->fcb->ads) {
if (fileref->parent->fcb->subvol == fileref->fcb->subvol) {
LIST_ENTRY* le;
mark_fcb_dirty(fileref->fcb);
fileref->fcb->inode_item_changed = TRUE;
if (fileref->fcb->inode_item.st_nlink > 1) {
fileref->fcb->inode_item.st_nlink--;
fileref->fcb->inode_item.transid = fileref->fcb->Vcb->superblock.generation;
fileref->fcb->inode_item.sequence++;
fileref->fcb->inode_item.st_ctime = now;
} else {
// excise extents
if (fileref->fcb->type != BTRFS_TYPE_DIRECTORY && fileref->fcb->inode_item.st_size > 0) {
Status = excise_extents(fileref->fcb->Vcb, fileref->fcb, 0, sector_align(fileref->fcb->inode_item.st_size, fileref->fcb->Vcb->superblock.sector_size), Irp, rollback);
if (!NT_SUCCESS(Status)) {
ERR("excise_extents returned %08x\n", Status);
ExReleaseResourceLite(fileref->fcb->Header.Resource);
return Status;
}
}
fileref->fcb->Header.AllocationSize.QuadPart = 0;
fileref->fcb->Header.FileSize.QuadPart = 0;
fileref->fcb->Header.ValidDataLength.QuadPart = 0;
if (FileObject) {
CC_FILE_SIZES ccfs;
ccfs.AllocationSize = fileref->fcb->Header.AllocationSize;
ccfs.FileSize = fileref->fcb->Header.FileSize;
ccfs.ValidDataLength = fileref->fcb->Header.ValidDataLength;
Status = STATUS_SUCCESS;
_SEH2_TRY {
CcSetFileSizes(FileObject, &ccfs);
} _SEH2_EXCEPT (EXCEPTION_EXECUTE_HANDLER) {
Status = _SEH2_GetExceptionCode();
} _SEH2_END;
if (!NT_SUCCESS(Status)) {
ERR("CcSetFileSizes threw exception %08x\n", Status);
ExReleaseResourceLite(fileref->fcb->Header.Resource);
return Status;
}
}
fileref->fcb->deleted = TRUE;
}
if (fileref->dc) {
le = fileref->fcb->hardlinks.Flink;
while (le != &fileref->fcb->hardlinks) {
hardlink* hl = CONTAINING_RECORD(le, hardlink, list_entry);
if (hl->parent == fileref->parent->fcb->inode && hl->index == fileref->dc->index) {
RemoveEntryList(&hl->list_entry);
if (hl->name.Buffer)
ExFreePool(hl->name.Buffer);
if (hl->utf8.Buffer)
ExFreePool(hl->utf8.Buffer);
ExFreePool(hl);
break;
}
le = le->Flink;
}
}
} else if (fileref->fcb->subvol->parent == fileref->parent->fcb->subvol->id) { // valid subvolume
if (fileref->fcb->subvol->root_item.num_references > 1) {
fileref->fcb->subvol->root_item.num_references--;
mark_fcb_dirty(fileref->fcb); // so ROOT_ITEM gets updated
} else {
// FIXME - we need a lock here
RemoveEntryList(&fileref->fcb->subvol->list_entry);
InsertTailList(&fileref->fcb->Vcb->drop_roots, &fileref->fcb->subvol->list_entry);
}
}
} else {
fileref->fcb->deleted = TRUE;
mark_fcb_dirty(fileref->fcb);
}
// remove dir_child from parent
if (fileref->dc) {
TRACE("delete file %.*S\n", fileref->dc->name.Length / sizeof(WCHAR), fileref->dc->name.Buffer);
ExAcquireResourceExclusiveLite(&fileref->parent->fcb->nonpaged->dir_children_lock, TRUE);
RemoveEntryList(&fileref->dc->list_entry_index);
if (!fileref->fcb->ads)
remove_dir_child_from_hash_lists(fileref->parent->fcb, fileref->dc);
ExReleaseResourceLite(&fileref->parent->fcb->nonpaged->dir_children_lock);
if (!fileref->oldutf8.Buffer)
fileref->oldutf8 = fileref->dc->utf8;
else
ExFreePool(fileref->dc->utf8.Buffer);
utf8len = fileref->dc->utf8.Length;
fileref->oldindex = fileref->dc->index;
ExFreePool(fileref->dc->name.Buffer);
ExFreePool(fileref->dc->name_uc.Buffer);
ExFreePool(fileref->dc);
fileref->dc = NULL;
}
// update INODE_ITEM of parent
ExAcquireResourceExclusiveLite(fileref->parent->fcb->Header.Resource, TRUE);
fileref->parent->fcb->inode_item.transid = fileref->fcb->Vcb->superblock.generation;
fileref->parent->fcb->inode_item.sequence++;
fileref->parent->fcb->inode_item.st_ctime = now;
if (!fileref->fcb->ads) {
TRACE("fileref->parent->fcb->inode_item.st_size (inode %llx) was %llx\n", fileref->parent->fcb->inode, fileref->parent->fcb->inode_item.st_size);
fileref->parent->fcb->inode_item.st_size -= utf8len * 2;
TRACE("fileref->parent->fcb->inode_item.st_size (inode %llx) now %llx\n", fileref->parent->fcb->inode, fileref->parent->fcb->inode_item.st_size);
fileref->parent->fcb->inode_item.st_mtime = now;
}
fileref->parent->fcb->inode_item_changed = TRUE;
ExReleaseResourceLite(fileref->parent->fcb->Header.Resource);
if (!fileref->fcb->ads && fileref->parent->dc)
send_notification_fcb(fileref->parent, FILE_NOTIFY_CHANGE_LAST_WRITE, FILE_ACTION_MODIFIED, NULL);
mark_fcb_dirty(fileref->parent->fcb);
fileref->fcb->subvol->root_item.ctransid = fileref->fcb->Vcb->superblock.generation;
fileref->fcb->subvol->root_item.ctime = now;
newlength.QuadPart = 0;
if (FileObject && !CcUninitializeCacheMap(FileObject, &newlength, NULL))
TRACE("CcUninitializeCacheMap failed\n");
ExReleaseResourceLite(fileref->fcb->Header.Resource);
return STATUS_SUCCESS;
}
_Dispatch_type_(IRP_MJ_CLEANUP)
_Function_class_(DRIVER_DISPATCH)
static NTSTATUS drv_cleanup(_In_ PDEVICE_OBJECT DeviceObject, _In_ PIRP Irp) {
NTSTATUS Status;
PIO_STACK_LOCATION IrpSp = IoGetCurrentIrpStackLocation(Irp);
PFILE_OBJECT FileObject = IrpSp->FileObject;
device_extension* Vcb = DeviceObject->DeviceExtension;
fcb* fcb = FileObject->FsContext;
BOOL top_level;
FsRtlEnterFileSystem();
TRACE("cleanup\n");
top_level = is_top_level(Irp);
if (Vcb && Vcb->type == VCB_TYPE_VOLUME) {
Status = vol_cleanup(DeviceObject, Irp);
goto exit;
} else if (DeviceObject == master_devobj) {
TRACE("closing file system\n");
Status = STATUS_SUCCESS;
goto exit;
} else if (!Vcb || Vcb->type != VCB_TYPE_FS) {
Status = STATUS_INVALID_PARAMETER;
goto exit;
}
if (FileObject->Flags & FO_CLEANUP_COMPLETE) {
TRACE("FileObject %p already cleaned up\n", FileObject);
Status = STATUS_SUCCESS;
goto exit;
}
if (!fcb) {
ERR("fcb was NULL\n");
Status = STATUS_INVALID_PARAMETER;
goto exit;
}
// We have to use the pointer to Vcb stored in the fcb, as we can receive cleanup
// messages belonging to other devices.
if (FileObject && FileObject->FsContext) {
LONG oc;
ccb* ccb;
file_ref* fileref;
BOOL locked = TRUE;
ccb = FileObject->FsContext2;
fileref = ccb ? ccb->fileref : NULL;
TRACE("cleanup called for FileObject %p\n", FileObject);
TRACE("fileref %p (%S), refcount = %u, open_count = %u\n", fileref, file_desc(FileObject), fileref ? fileref->refcount : 0, fileref ? fileref->open_count : 0);
ExAcquireResourceSharedLite(&fcb->Vcb->tree_lock, TRUE);
ExAcquireResourceExclusiveLite(fcb->Header.Resource, TRUE);
IoRemoveShareAccess(FileObject, &fcb->share_access);
if (ccb)
FsRtlNotifyCleanup(fcb->Vcb->NotifySync, &fcb->Vcb->DirNotifyList, ccb);
if (fileref) {
oc = InterlockedDecrement(&fileref->open_count);
#ifdef DEBUG_FCB_REFCOUNTS
ERR("fileref %p: open_count now %i\n", fileref, oc);
#endif
}
if (ccb && ccb->options & FILE_DELETE_ON_CLOSE && fileref)
fileref->delete_on_close = TRUE;
if (fileref && fileref->delete_on_close && fcb->type == BTRFS_TYPE_DIRECTORY && fcb->inode_item.st_size > 0 && fcb != fcb->Vcb->dummy_fcb)
fileref->delete_on_close = FALSE;
if (fcb->Vcb->locked && fcb->Vcb->locked_fileobj == FileObject) {
TRACE("unlocking volume\n");
do_unlock_volume(fcb->Vcb);
FsRtlNotifyVolumeEvent(FileObject, FSRTL_VOLUME_UNLOCK);
}
if (ccb && ccb->reserving) {
fcb->subvol->reserved = NULL;
ccb->reserving = FALSE;
// FIXME - flush all of subvol's fcbs
}
if (fileref && oc == 0) {
if (!fcb->Vcb->removing) {
if (fileref && fileref->delete_on_close && fileref != fcb->Vcb->root_fileref && fcb != fcb->Vcb->volume_fcb) {
LIST_ENTRY rollback;
InitializeListHead(&rollback);
if (!fileref->fcb->ads || fileref->dc) {
if (fileref->fcb->ads) {
send_notification_fileref(fileref->parent, fcb->type == BTRFS_TYPE_DIRECTORY ? FILE_NOTIFY_CHANGE_DIR_NAME : FILE_NOTIFY_CHANGE_FILE_NAME,
FILE_ACTION_REMOVED, &fileref->dc->name);
} else
send_notification_fileref(fileref, fcb->type == BTRFS_TYPE_DIRECTORY ? FILE_NOTIFY_CHANGE_DIR_NAME : FILE_NOTIFY_CHANGE_FILE_NAME, FILE_ACTION_REMOVED, NULL);
}
ExReleaseResourceLite(fcb->Header.Resource);
locked = FALSE;
// fcb_lock needs to be acquired before fcb->Header.Resource
ExAcquireResourceExclusiveLite(&fcb->Vcb->fcb_lock, TRUE);
Status = delete_fileref(fileref, FileObject, Irp, &rollback);
if (!NT_SUCCESS(Status)) {
ERR("delete_fileref returned %08x\n", Status);
do_rollback(fcb->Vcb, &rollback);
ExReleaseResourceLite(&fcb->Vcb->fcb_lock);
ExReleaseResourceLite(&fcb->Vcb->tree_lock);
goto exit;
}
ExReleaseResourceLite(&fcb->Vcb->fcb_lock);
locked = FALSE;
clear_rollback(&rollback);
} else if (FileObject->Flags & FO_CACHE_SUPPORTED && fcb->nonpaged->segment_object.DataSectionObject) {
IO_STATUS_BLOCK iosb;
CcFlushCache(FileObject->SectionObjectPointer, NULL, 0, &iosb);
if (!NT_SUCCESS(iosb.Status)) {
ERR("CcFlushCache returned %08x\n", iosb.Status);
}
if (!ExIsResourceAcquiredSharedLite(fcb->Header.PagingIoResource)) {
ExAcquireResourceExclusiveLite(fcb->Header.PagingIoResource, TRUE);
ExReleaseResourceLite(fcb->Header.PagingIoResource);
}
CcPurgeCacheSection(&fcb->nonpaged->segment_object, NULL, 0, FALSE);
TRACE("flushed cache on close (FileObject = %p, fcb = %p, AllocationSize = %llx, FileSize = %llx, ValidDataLength = %llx)\n",
FileObject, fcb, fcb->Header.AllocationSize.QuadPart, fcb->Header.FileSize.QuadPart, fcb->Header.ValidDataLength.QuadPart);
}
}
if (fcb->Vcb && fcb != fcb->Vcb->volume_fcb)
CcUninitializeCacheMap(FileObject, NULL, NULL);
}
if (locked)
ExReleaseResourceLite(fcb->Header.Resource);
ExReleaseResourceLite(&fcb->Vcb->tree_lock);
FileObject->Flags |= FO_CLEANUP_COMPLETE;
}
Status = STATUS_SUCCESS;
exit:
TRACE("returning %08x\n", Status);
Irp->IoStatus.Status = Status;
Irp->IoStatus.Information = 0;
IoCompleteRequest(Irp, IO_NO_INCREMENT);
if (top_level)
IoSetTopLevelIrp(NULL);
FsRtlExitFileSystem();
return Status;
}
_Success_(return)
BOOL get_file_attributes_from_xattr(_In_reads_bytes_(len) char* val, _In_ UINT16 len, _Out_ ULONG* atts) {
if (len > 2 && val[0] == '0' && val[1] == 'x') {
int i;
ULONG dosnum = 0;
for (i = 2; i < len; i++) {
dosnum *= 0x10;
if (val[i] >= '0' && val[i] <= '9')
dosnum |= val[i] - '0';
else if (val[i] >= 'a' && val[i] <= 'f')
dosnum |= val[i] + 10 - 'a';
else if (val[i] >= 'A' && val[i] <= 'F')
dosnum |= val[i] + 10 - 'a';
}
TRACE("DOSATTRIB: %08x\n", dosnum);
*atts = dosnum;
return TRUE;
}
return FALSE;
}
ULONG get_file_attributes(_In_ _Requires_lock_held_(_Curr_->tree_lock) device_extension* Vcb, _In_ root* r, _In_ UINT64 inode,
_In_ UINT8 type, _In_ BOOL dotfile, _In_ BOOL ignore_xa, _In_opt_ PIRP Irp) {
ULONG att;
char* eaval;
UINT16 ealen;
if (!ignore_xa && get_xattr(Vcb, r, inode, EA_DOSATTRIB, EA_DOSATTRIB_HASH, (UINT8**)&eaval, &ealen, Irp)) {
ULONG dosnum = 0;
if (get_file_attributes_from_xattr(eaval, ealen, &dosnum)) {
ExFreePool(eaval);
if (type == BTRFS_TYPE_DIRECTORY)
dosnum |= FILE_ATTRIBUTE_DIRECTORY;
else if (type == BTRFS_TYPE_SYMLINK)
dosnum |= FILE_ATTRIBUTE_REPARSE_POINT;
if (type != BTRFS_TYPE_DIRECTORY)
dosnum &= ~FILE_ATTRIBUTE_DIRECTORY;
if (inode == SUBVOL_ROOT_INODE) {
if (r->root_item.flags & BTRFS_SUBVOL_READONLY)
dosnum |= FILE_ATTRIBUTE_READONLY;
else
dosnum &= ~FILE_ATTRIBUTE_READONLY;
}
return dosnum;
}
ExFreePool(eaval);
}
switch (type) {
case BTRFS_TYPE_DIRECTORY:
att = FILE_ATTRIBUTE_DIRECTORY;
break;
case BTRFS_TYPE_SYMLINK:
att = FILE_ATTRIBUTE_REPARSE_POINT;
break;
default:
att = 0;
break;
}
if (dotfile) {
att |= FILE_ATTRIBUTE_HIDDEN;
}
att |= FILE_ATTRIBUTE_ARCHIVE;
if (inode == SUBVOL_ROOT_INODE) {
if (r->root_item.flags & BTRFS_SUBVOL_READONLY)
att |= FILE_ATTRIBUTE_READONLY;
else
att &= ~FILE_ATTRIBUTE_READONLY;
}
// FIXME - get READONLY from ii->st_mode
// FIXME - return SYSTEM for block/char devices?
if (att == 0)
att = FILE_ATTRIBUTE_NORMAL;
return att;
}
NTSTATUS sync_read_phys(_In_ PDEVICE_OBJECT DeviceObject, _In_ UINT64 StartingOffset, _In_ ULONG Length,
_Out_writes_bytes_(Length) PUCHAR Buffer, _In_ BOOL override) {
IO_STATUS_BLOCK IoStatus;
LARGE_INTEGER Offset;
PIRP Irp;
PIO_STACK_LOCATION IrpSp;
NTSTATUS Status;
read_context context;
num_reads++;
RtlZeroMemory(&context, sizeof(read_context));
KeInitializeEvent(&context.Event, NotificationEvent, FALSE);
Offset.QuadPart = (LONGLONG)StartingOffset;
Irp = IoAllocateIrp(DeviceObject->StackSize, FALSE);
if (!Irp) {
ERR("IoAllocateIrp failed\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
Irp->Flags |= IRP_NOCACHE;
IrpSp = IoGetNextIrpStackLocation(Irp);
IrpSp->MajorFunction = IRP_MJ_READ;
if (override)
IrpSp->Flags |= SL_OVERRIDE_VERIFY_VOLUME;
if (DeviceObject->Flags & DO_BUFFERED_IO) {
Irp->AssociatedIrp.SystemBuffer = ExAllocatePoolWithTag(NonPagedPool, Length, ALLOC_TAG);
if (!Irp->AssociatedIrp.SystemBuffer) {
ERR("out of memory\n");
Status = STATUS_INSUFFICIENT_RESOURCES;
goto exit;
}
Irp->Flags |= IRP_BUFFERED_IO | IRP_DEALLOCATE_BUFFER | IRP_INPUT_OPERATION;
Irp->UserBuffer = Buffer;
} else if (DeviceObject->Flags & DO_DIRECT_IO) {
Irp->MdlAddress = IoAllocateMdl(Buffer, Length, FALSE, FALSE, NULL);
if (!Irp->MdlAddress) {
ERR("IoAllocateMdl failed\n");
Status = STATUS_INSUFFICIENT_RESOURCES;
goto exit;
}
Status = STATUS_SUCCESS;
_SEH2_TRY {
MmProbeAndLockPages(Irp->MdlAddress, KernelMode, IoWriteAccess);
} _SEH2_EXCEPT (EXCEPTION_EXECUTE_HANDLER) {
Status = _SEH2_GetExceptionCode();
} _SEH2_END;
if (!NT_SUCCESS(Status)) {
ERR("MmProbeAndLockPages threw exception %08x\n", Status);
IoFreeMdl(Irp->MdlAddress);
goto exit;
}
} else
Irp->UserBuffer = Buffer;
IrpSp->Parameters.Read.Length = Length;
IrpSp->Parameters.Read.ByteOffset = Offset;
Irp->UserIosb = &IoStatus;
Irp->UserEvent = &context.Event;
IoSetCompletionRoutine(Irp, read_completion, &context, TRUE, TRUE, TRUE);
Status = IoCallDriver(DeviceObject, Irp);
if (Status == STATUS_PENDING) {
KeWaitForSingleObject(&context.Event, Executive, KernelMode, FALSE, NULL);
Status = context.iosb.Status;
}
if (DeviceObject->Flags & DO_DIRECT_IO) {
MmUnlockPages(Irp->MdlAddress);
IoFreeMdl(Irp->MdlAddress);
}
exit:
IoFreeIrp(Irp);
return Status;
}
static NTSTATUS read_superblock(_In_ device_extension* Vcb, _In_ PDEVICE_OBJECT device, _In_ UINT64 length) {
NTSTATUS Status;
superblock* sb;
ULONG i, to_read;
UINT8 valid_superblocks;
to_read = device->SectorSize == 0 ? sizeof(superblock) : (ULONG)sector_align(sizeof(superblock), device->SectorSize);
sb = ExAllocatePoolWithTag(NonPagedPool, to_read, ALLOC_TAG);
if (!sb) {
ERR("out of memory\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
if (superblock_addrs[0] + to_read > length) {
WARN("device was too short to have any superblock\n");
ExFreePool(sb);
return STATUS_UNRECOGNIZED_VOLUME;
}
i = 0;
valid_superblocks = 0;
while (superblock_addrs[i] > 0) {
UINT32 crc32;
if (i > 0 && superblock_addrs[i] + to_read > length)
break;
Status = sync_read_phys(device, superblock_addrs[i], to_read, (PUCHAR)sb, FALSE);
if (!NT_SUCCESS(Status)) {
ERR("Failed to read superblock %u: %08x\n", i, Status);
ExFreePool(sb);
return Status;
}
if (sb->magic != BTRFS_MAGIC) {
if (i == 0) {
TRACE("not a BTRFS volume\n");
ExFreePool(sb);
return STATUS_UNRECOGNIZED_VOLUME;
}
} else {
TRACE("got superblock %u!\n", i);
crc32 = ~calc_crc32c(0xffffffff, (UINT8*)&sb->uuid, (ULONG)sizeof(superblock) - sizeof(sb->checksum));
if (crc32 != *((UINT32*)sb->checksum))
WARN("crc32 was %08x, expected %08x\n", crc32, *((UINT32*)sb->checksum));
else if (sb->sector_size == 0)
WARN("superblock sector size was 0\n");
else if (sb->node_size < sizeof(tree_header) + sizeof(internal_node) || sb->node_size > 0x10000)
WARN("invalid node size %x\n", sb->node_size);
else if ((sb->node_size % sb->sector_size) != 0)
WARN("node size %x was not a multiple of sector_size %x\n", sb->node_size, sb->sector_size);
else if (valid_superblocks == 0 || sb->generation > Vcb->superblock.generation) {
RtlCopyMemory(&Vcb->superblock, sb, sizeof(superblock));
valid_superblocks++;
}
}
i++;
}
ExFreePool(sb);
if (valid_superblocks == 0) {
ERR("could not find any valid superblocks\n");
return STATUS_INTERNAL_ERROR;
}
TRACE("label is %s\n", Vcb->superblock.label);
return STATUS_SUCCESS;
}
NTSTATUS dev_ioctl(_In_ PDEVICE_OBJECT DeviceObject, _In_ ULONG ControlCode, _In_reads_bytes_opt_(InputBufferSize) PVOID InputBuffer, _In_ ULONG InputBufferSize,
_Out_writes_bytes_opt_(OutputBufferSize) PVOID OutputBuffer, _In_ ULONG OutputBufferSize, _In_ BOOLEAN Override, _Out_opt_ IO_STATUS_BLOCK* iosb) {
PIRP Irp;
KEVENT Event;
NTSTATUS Status;
PIO_STACK_LOCATION IrpSp;
IO_STATUS_BLOCK IoStatus;
KeInitializeEvent(&Event, NotificationEvent, FALSE);
Irp = IoBuildDeviceIoControlRequest(ControlCode,
DeviceObject,
InputBuffer,
InputBufferSize,
OutputBuffer,
OutputBufferSize,
FALSE,
&Event,
&IoStatus);
if (!Irp) return STATUS_INSUFFICIENT_RESOURCES;
if (Override) {
IrpSp = IoGetNextIrpStackLocation(Irp);
IrpSp->Flags |= SL_OVERRIDE_VERIFY_VOLUME;
}
Status = IoCallDriver(DeviceObject, Irp);
if (Status == STATUS_PENDING) {
KeWaitForSingleObject(&Event, Executive, KernelMode, FALSE, NULL);
Status = IoStatus.Status;
}
if (iosb)
*iosb = IoStatus;
return Status;
}
_Requires_exclusive_lock_held_(Vcb->tree_lock)
static NTSTATUS add_root(_Inout_ device_extension* Vcb, _In_ UINT64 id, _In_ UINT64 addr,
_In_ UINT64 generation, _In_opt_ traverse_ptr* tp) {
root* r = ExAllocatePoolWithTag(PagedPool, sizeof(root), ALLOC_TAG);
if (!r) {
ERR("out of memory\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
r->id = id;
r->dirty = FALSE;
r->received = FALSE;
r->reserved = NULL;
r->treeholder.address = addr;
r->treeholder.tree = NULL;
r->treeholder.generation = generation;
r->parent = 0;
r->send_ops = 0;
InitializeListHead(&r->fcbs);
r->nonpaged = ExAllocatePoolWithTag(NonPagedPool, sizeof(root_nonpaged), ALLOC_TAG);
if (!r->nonpaged) {
ERR("out of memory\n");
ExFreePool(r);
return STATUS_INSUFFICIENT_RESOURCES;
}
ExInitializeResourceLite(&r->nonpaged->load_tree_lock);
r->lastinode = 0;
if (tp) {
RtlCopyMemory(&r->root_item, tp->item->data, min(sizeof(ROOT_ITEM), tp->item->size));
if (tp->item->size < sizeof(ROOT_ITEM))
RtlZeroMemory(((UINT8*)&r->root_item) + tp->item->size, sizeof(ROOT_ITEM) - tp->item->size);
} else
RtlZeroMemory(&r->root_item, sizeof(ROOT_ITEM));
if (!Vcb->readonly && (r->id == BTRFS_ROOT_ROOT || r->id == BTRFS_ROOT_FSTREE || (r->id >= 0x100 && !(r->id & 0xf000000000000000)))) { // FS tree root
// FIXME - don't call this if subvol is readonly (though we will have to if we ever toggle this flag)
get_last_inode(Vcb, r, NULL);
if (r->id == BTRFS_ROOT_ROOT && r->lastinode < 0x100)
r->lastinode = 0x100;
}
InsertTailList(&Vcb->roots, &r->list_entry);
switch (r->id) {
case BTRFS_ROOT_ROOT:
Vcb->root_root = r;
break;
case BTRFS_ROOT_EXTENT:
Vcb->extent_root = r;
break;
case BTRFS_ROOT_CHUNK:
Vcb->chunk_root = r;
break;
case BTRFS_ROOT_DEVTREE:
Vcb->dev_root = r;
break;
case BTRFS_ROOT_CHECKSUM:
Vcb->checksum_root = r;
break;
case BTRFS_ROOT_UUID:
Vcb->uuid_root = r;
break;
case BTRFS_ROOT_FREE_SPACE:
Vcb->space_root = r;
break;
case BTRFS_ROOT_DATA_RELOC:
Vcb->data_reloc_root = r;
break;
}
return STATUS_SUCCESS;
}
static NTSTATUS look_for_roots(_Requires_exclusive_lock_held_(_Curr_->tree_lock) _In_ device_extension* Vcb, _In_opt_ PIRP Irp) {
traverse_ptr tp, next_tp;
KEY searchkey;
BOOL b;
NTSTATUS Status;
searchkey.obj_id = 0;
searchkey.obj_type = 0;
searchkey.offset = 0;
Status = find_item(Vcb, Vcb->root_root, &tp, &searchkey, FALSE, Irp);
if (!NT_SUCCESS(Status)) {
ERR("error - find_item returned %08x\n", Status);
return Status;
}
do {
TRACE("(%llx,%x,%llx)\n", tp.item->key.obj_id, tp.item->key.obj_type, tp.item->key.offset);
if (tp.item->key.obj_type == TYPE_ROOT_ITEM) {
ROOT_ITEM* ri = (ROOT_ITEM*)tp.item->data;
if (tp.item->size < offsetof(ROOT_ITEM, byte_limit)) {
ERR("(%llx,%x,%llx) was %u bytes, expected at least %u\n", tp.item->key.obj_id, tp.item->key.obj_type, tp.item->key.offset, tp.item->size, offsetof(ROOT_ITEM, byte_limit));
} else {
TRACE("root %llx - address %llx\n", tp.item->key.obj_id, ri->block_number);
Status = add_root(Vcb, tp.item->key.obj_id, ri->block_number, ri->generation, &tp);
if (!NT_SUCCESS(Status)) {
ERR("add_root returned %08x\n", Status);
return Status;
}
}
} else if (tp.item->key.obj_type == TYPE_ROOT_BACKREF && !IsListEmpty(&Vcb->roots)) {
root* lastroot = CONTAINING_RECORD(Vcb->roots.Blink, root, list_entry);
if (lastroot->id == tp.item->key.obj_id)
lastroot->parent = tp.item->key.offset;
}
b = find_next_item(Vcb, &tp, &next_tp, FALSE, Irp);
if (b)
tp = next_tp;
} while (b);
if (!Vcb->readonly && !Vcb->data_reloc_root) {
root* reloc_root;
INODE_ITEM* ii;
UINT16 irlen;
INODE_REF* ir;
LARGE_INTEGER time;
BTRFS_TIME now;
WARN("data reloc root doesn't exist, creating it\n");
Status = create_root(Vcb, BTRFS_ROOT_DATA_RELOC, &reloc_root, FALSE, 0, Irp);
if (!NT_SUCCESS(Status)) {
ERR("create_root returned %08x\n", Status);
return Status;
}
reloc_root->root_item.inode.generation = 1;
reloc_root->root_item.inode.st_size = 3;
reloc_root->root_item.inode.st_blocks = Vcb->superblock.node_size;
reloc_root->root_item.inode.st_nlink = 1;
reloc_root->root_item.inode.st_mode = 040755;
reloc_root->root_item.inode.flags = 0xffffffff80000000;
reloc_root->root_item.objid = SUBVOL_ROOT_INODE;
reloc_root->root_item.bytes_used = Vcb->superblock.node_size;
ii = ExAllocatePoolWithTag(PagedPool, sizeof(INODE_ITEM), ALLOC_TAG);
if (!ii) {
ERR("out of memory\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
KeQuerySystemTime(&time);
win_time_to_unix(time, &now);
RtlZeroMemory(ii, sizeof(INODE_ITEM));
ii->generation = Vcb->superblock.generation;
ii->st_blocks = Vcb->superblock.node_size;
ii->st_nlink = 1;
ii->st_mode = 040755;
ii->st_atime = now;
ii->st_ctime = now;
ii->st_mtime = now;
Status = insert_tree_item(Vcb, reloc_root, SUBVOL_ROOT_INODE, TYPE_INODE_ITEM, 0, ii, sizeof(INODE_ITEM), NULL, Irp);
if (!NT_SUCCESS(Status)) {
ERR("insert_tree_item returned %08x\n", Status);
ExFreePool(ii);
return Status;
}
irlen = (UINT16)offsetof(INODE_REF, name[0]) + 2;
ir = ExAllocatePoolWithTag(PagedPool, irlen, ALLOC_TAG);
if (!ir) {
ERR("out of memory\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
ir->index = 0;
ir->n = 2;
ir->name[0] = '.';
ir->name[1] = '.';
Status = insert_tree_item(Vcb, reloc_root, SUBVOL_ROOT_INODE, TYPE_INODE_REF, SUBVOL_ROOT_INODE, ir, irlen, NULL, Irp);
if (!NT_SUCCESS(Status)) {
ERR("insert_tree_item returned %08x\n", Status);
ExFreePool(ir);
return Status;
}
Vcb->data_reloc_root = reloc_root;
Vcb->need_write = TRUE;
}
return STATUS_SUCCESS;
}
static NTSTATUS find_disk_holes(_In_ _Requires_lock_held_(_Curr_->tree_lock) device_extension* Vcb, _In_ device* dev, _In_opt_ PIRP Irp) {
KEY searchkey;
traverse_ptr tp, next_tp;
BOOL b;
UINT64 lastaddr;
NTSTATUS Status;
InitializeListHead(&dev->space);
searchkey.obj_id = 0;
searchkey.obj_type = TYPE_DEV_STATS;
searchkey.offset = dev->devitem.dev_id;
Status = find_item(Vcb, Vcb->dev_root, &tp, &searchkey, FALSE, Irp);
if (NT_SUCCESS(Status) && !keycmp(tp.item->key, searchkey))
RtlCopyMemory(dev->stats, tp.item->data, min(sizeof(UINT64) * 5, tp.item->size));
searchkey.obj_id = dev->devitem.dev_id;
searchkey.obj_type = TYPE_DEV_EXTENT;
searchkey.offset = 0;
Status = find_item(Vcb, Vcb->dev_root, &tp, &searchkey, FALSE, Irp);
if (!NT_SUCCESS(Status)) {
ERR("error - find_item returned %08x\n", Status);
return Status;
}
lastaddr = 0;
do {
if (tp.item->key.obj_id == dev->devitem.dev_id && tp.item->key.obj_type == TYPE_DEV_EXTENT) {
if (tp.item->size >= sizeof(DEV_EXTENT)) {
DEV_EXTENT* de = (DEV_EXTENT*)tp.item->data;
if (tp.item->key.offset > lastaddr) {
Status = add_space_entry(&dev->space, NULL, lastaddr, tp.item->key.offset - lastaddr);
if (!NT_SUCCESS(Status)) {
ERR("add_space_entry returned %08x\n", Status);
return Status;
}
}
lastaddr = tp.item->key.offset + de->length;
} else {
ERR("(%llx,%x,%llx) was %u bytes, expected %u\n", tp.item->key.obj_id, tp.item->key.obj_type, tp.item->key.offset, tp.item->size, sizeof(DEV_EXTENT));
}
}
b = find_next_item(Vcb, &tp, &next_tp, FALSE, Irp);
if (b) {
tp = next_tp;
if (tp.item->key.obj_id > searchkey.obj_id || tp.item->key.obj_type > searchkey.obj_type)
break;
}
} while (b);
if (lastaddr < dev->devitem.num_bytes) {
Status = add_space_entry(&dev->space, NULL, lastaddr, dev->devitem.num_bytes - lastaddr);
if (!NT_SUCCESS(Status)) {
ERR("add_space_entry returned %08x\n", Status);
return Status;
}
}
// The Linux driver doesn't like to allocate chunks within the first megabyte of a device.
space_list_subtract2(&dev->space, NULL, 0, 0x100000, NULL, NULL);
return STATUS_SUCCESS;
}
static void add_device_to_list(_In_ device_extension* Vcb, _In_ device* dev) {
LIST_ENTRY* le;
le = Vcb->devices.Flink;
while (le != &Vcb->devices) {
device* dev2 = CONTAINING_RECORD(le, device, list_entry);
if (dev2->devitem.dev_id > dev->devitem.dev_id) {
InsertHeadList(le->Blink, &dev->list_entry);
return;
}
le = le->Flink;
}
InsertTailList(&Vcb->devices, &dev->list_entry);
}
_Ret_maybenull_
device* find_device_from_uuid(_In_ device_extension* Vcb, _In_ BTRFS_UUID* uuid) {
volume_device_extension* vde;
pdo_device_extension* pdode;
LIST_ENTRY* le;
le = Vcb->devices.Flink;
while (le != &Vcb->devices) {
device* dev = CONTAINING_RECORD(le, device, list_entry);
TRACE("device %llx, uuid %02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x\n", dev->devitem.dev_id,
dev->devitem.device_uuid.uuid[0], dev->devitem.device_uuid.uuid[1], dev->devitem.device_uuid.uuid[2], dev->devitem.device_uuid.uuid[3], dev->devitem.device_uuid.uuid[4], dev->devitem.device_uuid.uuid[5], dev->devitem.device_uuid.uuid[6], dev->devitem.device_uuid.uuid[7],
dev->devitem.device_uuid.uuid[8], dev->devitem.device_uuid.uuid[9], dev->devitem.device_uuid.uuid[10], dev->devitem.device_uuid.uuid[11], dev->devitem.device_uuid.uuid[12], dev->devitem.device_uuid.uuid[13], dev->devitem.device_uuid.uuid[14], dev->devitem.device_uuid.uuid[15]);
if (RtlCompareMemory(&dev->devitem.device_uuid, uuid, sizeof(BTRFS_UUID)) == sizeof(BTRFS_UUID)) {
TRACE("returning device %llx\n", dev->devitem.dev_id);
return dev;
}
le = le->Flink;
}
vde = Vcb->vde;
if (!vde)
goto end;
pdode = vde->pdode;
ExAcquireResourceSharedLite(&pdode->child_lock, TRUE);
if (Vcb->devices_loaded < Vcb->superblock.num_devices) {
le = pdode->children.Flink;
while (le != &pdode->children) {
volume_child* vc = CONTAINING_RECORD(le, volume_child, list_entry);
if (RtlCompareMemory(uuid, &vc->uuid, sizeof(BTRFS_UUID)) == sizeof(BTRFS_UUID)) {
device* dev;
dev = ExAllocatePoolWithTag(NonPagedPool, sizeof(device), ALLOC_TAG);
if (!dev) {
ExReleaseResourceLite(&pdode->child_lock);
ERR("out of memory\n");
return NULL;
}
RtlZeroMemory(dev, sizeof(device));
dev->devobj = vc->devobj;
dev->devitem.device_uuid = *uuid;
dev->devitem.dev_id = vc->devid;
dev->devitem.num_bytes = vc->size;
dev->seeding = vc->seeding;
dev->readonly = dev->seeding;
dev->reloc = FALSE;
dev->removable = FALSE;
dev->disk_num = vc->disk_num;
dev->part_num = vc->part_num;
dev->num_trim_entries = 0;
InitializeListHead(&dev->trim_list);
add_device_to_list(Vcb, dev);
Vcb->devices_loaded++;
ExReleaseResourceLite(&pdode->child_lock);
return dev;
}
le = le->Flink;
}
}
ExReleaseResourceLite(&pdode->child_lock);
end:
WARN("could not find device with uuid %02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x\n",
uuid->uuid[0], uuid->uuid[1], uuid->uuid[2], uuid->uuid[3], uuid->uuid[4], uuid->uuid[5], uuid->uuid[6], uuid->uuid[7],
uuid->uuid[8], uuid->uuid[9], uuid->uuid[10], uuid->uuid[11], uuid->uuid[12], uuid->uuid[13], uuid->uuid[14], uuid->uuid[15]);
return NULL;
}
static BOOL is_device_removable(_In_ PDEVICE_OBJECT devobj) {
NTSTATUS Status;
STORAGE_HOTPLUG_INFO shi;
Status = dev_ioctl(devobj, IOCTL_STORAGE_GET_HOTPLUG_INFO, NULL, 0, &shi, sizeof(STORAGE_HOTPLUG_INFO), TRUE, NULL);
if (!NT_SUCCESS(Status)) {
ERR("dev_ioctl returned %08x\n", Status);
return FALSE;
}
return shi.MediaRemovable != 0 ? TRUE : FALSE;
}
static ULONG get_device_change_count(_In_ PDEVICE_OBJECT devobj) {
NTSTATUS Status;
ULONG cc;
IO_STATUS_BLOCK iosb;
Status = dev_ioctl(devobj, IOCTL_STORAGE_CHECK_VERIFY, NULL, 0, &cc, sizeof(ULONG), TRUE, &iosb);
if (!NT_SUCCESS(Status)) {
ERR("dev_ioctl returned %08x\n", Status);
return 0;
}
if (iosb.Information < sizeof(ULONG)) {
ERR("iosb.Information was too short\n");
return 0;
}
return cc;
}
void init_device(_In_ device_extension* Vcb, _Inout_ device* dev, _In_ BOOL get_nums) {
NTSTATUS Status;
ULONG aptelen;
ATA_PASS_THROUGH_EX* apte;
STORAGE_PROPERTY_QUERY spq;
DEVICE_TRIM_DESCRIPTOR dtd;
dev->removable = is_device_removable(dev->devobj);
dev->change_count = dev->removable ? get_device_change_count(dev->devobj) : 0;
if (get_nums) {
STORAGE_DEVICE_NUMBER sdn;
Status = dev_ioctl(dev->devobj, IOCTL_STORAGE_GET_DEVICE_NUMBER, NULL, 0,
&sdn, sizeof(STORAGE_DEVICE_NUMBER), TRUE, NULL);
if (!NT_SUCCESS(Status)) {
WARN("IOCTL_STORAGE_GET_DEVICE_NUMBER returned %08x\n", Status);
dev->disk_num = 0xffffffff;
dev->part_num = 0xffffffff;
} else {
dev->disk_num = sdn.DeviceNumber;
dev->part_num = sdn.PartitionNumber;
}
}
dev->trim = FALSE;
dev->readonly = dev->seeding;
dev->reloc = FALSE;
dev->num_trim_entries = 0;
dev->stats_changed = FALSE;
InitializeListHead(&dev->trim_list);
if (!dev->readonly) {
Status = dev_ioctl(dev->devobj, IOCTL_DISK_IS_WRITABLE, NULL, 0,
NULL, 0, TRUE, NULL);
if (Status == STATUS_MEDIA_WRITE_PROTECTED)
dev->readonly = TRUE;
}
aptelen = sizeof(ATA_PASS_THROUGH_EX) + 512;
apte = ExAllocatePoolWithTag(NonPagedPool, aptelen, ALLOC_TAG);
if (!apte) {
ERR("out of memory\n");
return;
}
RtlZeroMemory(apte, aptelen);
apte->Length = sizeof(ATA_PASS_THROUGH_EX);
apte->AtaFlags = ATA_FLAGS_DATA_IN;
apte->DataTransferLength = aptelen - sizeof(ATA_PASS_THROUGH_EX);
apte->TimeOutValue = 3;
apte->DataBufferOffset = apte->Length;
apte->CurrentTaskFile[6] = IDE_COMMAND_IDENTIFY;
Status = dev_ioctl(dev->devobj, IOCTL_ATA_PASS_THROUGH, apte, aptelen,
apte, aptelen, TRUE, NULL);
if (!NT_SUCCESS(Status))
TRACE("IOCTL_ATA_PASS_THROUGH returned %08x for IDENTIFY DEVICE\n", Status);
else {
IDENTIFY_DEVICE_DATA* idd = (IDENTIFY_DEVICE_DATA*)((UINT8*)apte + sizeof(ATA_PASS_THROUGH_EX));
if (idd->CommandSetSupport.FlushCache) {
dev->can_flush = TRUE;
TRACE("FLUSH CACHE supported\n");
} else
TRACE("FLUSH CACHE not supported\n");
}
ExFreePool(apte);
spq.PropertyId = StorageDeviceTrimProperty;
spq.QueryType = PropertyStandardQuery;
spq.AdditionalParameters[0] = 0;
Status = dev_ioctl(dev->devobj, IOCTL_STORAGE_QUERY_PROPERTY, &spq, sizeof(STORAGE_PROPERTY_QUERY),
&dtd, sizeof(DEVICE_TRIM_DESCRIPTOR), TRUE, NULL);
if (NT_SUCCESS(Status)) {
if (dtd.TrimEnabled) {
dev->trim = TRUE;
Vcb->trim = TRUE;
TRACE("TRIM supported\n");
} else
TRACE("TRIM not supported\n");
}
RtlZeroMemory(dev->stats, sizeof(UINT64) * 5);
}
static NTSTATUS load_chunk_root(_In_ _Requires_lock_held_(_Curr_->tree_lock) device_extension* Vcb, _In_opt_ PIRP Irp) {
traverse_ptr tp, next_tp;
KEY searchkey;
BOOL b;
chunk* c;
NTSTATUS Status;
searchkey.obj_id = 0;
searchkey.obj_type = 0;
searchkey.offset = 0;
Vcb->data_flags = 0;
Vcb->metadata_flags = 0;
Vcb->system_flags = 0;
Status = find_item(Vcb, Vcb->chunk_root, &tp, &searchkey, FALSE, Irp);
if (!NT_SUCCESS(Status)) {
ERR("error - find_item returned %08x\n", Status);
return Status;
}
do {
TRACE("(%llx,%x,%llx)\n", tp.item->key.obj_id, tp.item->key.obj_type, tp.item->key.offset);
if (tp.item->key.obj_id == 1 && tp.item->key.obj_type == TYPE_DEV_ITEM) {
if (tp.item->size < sizeof(DEV_ITEM)) {
ERR("(%llx,%x,%llx) was %u bytes, expected %u\n", tp.item->key.obj_id, tp.item->key.obj_type, tp.item->key.offset, tp.item->size, sizeof(DEV_ITEM));
} else {
DEV_ITEM* di = (DEV_ITEM*)tp.item->data;
LIST_ENTRY* le;
BOOL done = FALSE;
le = Vcb->devices.Flink;
while (le != &Vcb->devices) {
device* dev = CONTAINING_RECORD(le, device, list_entry);
if (dev->devobj && RtlCompareMemory(&dev->devitem.device_uuid, &di->device_uuid, sizeof(BTRFS_UUID)) == sizeof(BTRFS_UUID)) {
RtlCopyMemory(&dev->devitem, tp.item->data, min(tp.item->size, sizeof(DEV_ITEM)));
if (le != Vcb->devices.Flink)
init_device(Vcb, dev, TRUE);
done = TRUE;
break;
}
le = le->Flink;
}
if (!done && Vcb->vde) {
volume_device_extension* vde = Vcb->vde;
pdo_device_extension* pdode = vde->pdode;
ExAcquireResourceSharedLite(&pdode->child_lock, TRUE);
if (Vcb->devices_loaded < Vcb->superblock.num_devices) {
le = pdode->children.Flink;
while (le != &pdode->children) {
volume_child* vc = CONTAINING_RECORD(le, volume_child, list_entry);
if (RtlCompareMemory(&di->device_uuid, &vc->uuid, sizeof(BTRFS_UUID)) == sizeof(BTRFS_UUID)) {
device* dev;
dev = ExAllocatePoolWithTag(NonPagedPool, sizeof(device), ALLOC_TAG);
if (!dev) {
ExReleaseResourceLite(&pdode->child_lock);
ERR("out of memory\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
RtlZeroMemory(dev, sizeof(device));
dev->devobj = vc->devobj;
RtlCopyMemory(&dev->devitem, di, min(tp.item->size, sizeof(DEV_ITEM)));
dev->seeding = vc->seeding;
init_device(Vcb, dev, FALSE);
if (dev->devitem.num_bytes > vc->size) {
WARN("device %llx: DEV_ITEM says %llx bytes, but Windows only reports %llx\n", tp.item->key.offset,
dev->devitem.num_bytes, vc->size);
dev->devitem.num_bytes = vc->size;
}
dev->disk_num = vc->disk_num;
dev->part_num = vc->part_num;
add_device_to_list(Vcb, dev);
Vcb->devices_loaded++;
done = TRUE;
break;
}
le = le->Flink;
}
if (!done) {
if (!Vcb->options.allow_degraded) {
ERR("volume not found: device %llx, uuid %02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x\n", tp.item->key.offset,
di->device_uuid.uuid[0], di->device_uuid.uuid[1], di->device_uuid.uuid[2], di->device_uuid.uuid[3], di->device_uuid.uuid[4], di->device_uuid.uuid[5], di->device_uuid.uuid[6], di->device_uuid.uuid[7],
di->device_uuid.uuid[8], di->device_uuid.uuid[9], di->device_uuid.uuid[10], di->device_uuid.uuid[11], di->device_uuid.uuid[12], di->device_uuid.uuid[13], di->device_uuid.uuid[14], di->device_uuid.uuid[15]);
} else {
device* dev;
dev = ExAllocatePoolWithTag(NonPagedPool, sizeof(device), ALLOC_TAG);
if (!dev) {
ExReleaseResourceLite(&pdode->child_lock);
ERR("out of memory\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
RtlZeroMemory(dev, sizeof(device));
// Missing device, so we keep dev->devobj as NULL
RtlCopyMemory(&dev->devitem, di, min(tp.item->size, sizeof(DEV_ITEM)));
InitializeListHead(&dev->trim_list);
add_device_to_list(Vcb, dev);
Vcb->devices_loaded++;
}
}
} else
ERR("unexpected device %llx found\n", tp.item->key.offset);
ExReleaseResourceLite(&pdode->child_lock);
}
}
} else if (tp.item->key.obj_type == TYPE_CHUNK_ITEM) {
if (tp.item->size < sizeof(CHUNK_ITEM)) {
ERR("(%llx,%x,%llx) was %u bytes, expected at least %u\n", tp.item->key.obj_id, tp.item->key.obj_type, tp.item->key.offset, tp.item->size, sizeof(CHUNK_ITEM));
} else {
c = ExAllocatePoolWithTag(NonPagedPool, sizeof(chunk), ALLOC_TAG);
if (!c) {
ERR("out of memory\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
c->size = tp.item->size;
c->offset = tp.item->key.offset;
c->used = c->oldused = 0;
c->cache = c->old_cache = NULL;
c->created = FALSE;
c->readonly = FALSE;
c->reloc = FALSE;
c->cache_loaded = FALSE;
c->changed = FALSE;
c->space_changed = FALSE;
c->balance_num = 0;
c->chunk_item = ExAllocatePoolWithTag(NonPagedPool, tp.item->size, ALLOC_TAG);
if (!c->chunk_item) {
ERR("out of memory\n");
ExFreePool(c);
return STATUS_INSUFFICIENT_RESOURCES;
}
RtlCopyMemory(c->chunk_item, tp.item->data, tp.item->size);
if (c->chunk_item->type & BLOCK_FLAG_DATA && c->chunk_item->type > Vcb->data_flags)
Vcb->data_flags = c->chunk_item->type;
if (c->chunk_item->type & BLOCK_FLAG_METADATA && c->chunk_item->type > Vcb->metadata_flags)
Vcb->metadata_flags = c->chunk_item->type;
if (c->chunk_item->type & BLOCK_FLAG_SYSTEM && c->chunk_item->type > Vcb->system_flags)
Vcb->system_flags = c->chunk_item->type;
if (c->chunk_item->type & BLOCK_FLAG_RAID10) {
if (c->chunk_item->sub_stripes == 0 || c->chunk_item->sub_stripes > c->chunk_item->num_stripes) {
ERR("chunk %llx: invalid stripes (num_stripes %u, sub_stripes %u)\n", c->offset, c->chunk_item->num_stripes, c->chunk_item->sub_stripes);
ExFreePool(c->chunk_item);
ExFreePool(c);
return STATUS_INTERNAL_ERROR;
}
}
if (c->chunk_item->num_stripes > 0) {
CHUNK_ITEM_STRIPE* cis = (CHUNK_ITEM_STRIPE*)&c->chunk_item[1];
UINT16 i;
c->devices = ExAllocatePoolWithTag(NonPagedPool, sizeof(device*) * c->chunk_item->num_stripes, ALLOC_TAG);
if (!c->devices) {
ERR("out of memory\n");
ExFreePool(c->chunk_item);
ExFreePool(c);
return STATUS_INSUFFICIENT_RESOURCES;
}
for (i = 0; i < c->chunk_item->num_stripes; i++) {
c->devices[i] = find_device_from_uuid(Vcb, &cis[i].dev_uuid);
TRACE("device %llu = %p\n", i, c->devices[i]);
if (!c->devices[i]) {
ERR("missing device\n");
ExFreePool(c->chunk_item);
ExFreePool(c);
return STATUS_INTERNAL_ERROR;
}
if (c->devices[i]->readonly)
c->readonly = TRUE;
}
} else {
ERR("chunk %llx: number of stripes is 0\n", c->offset);
ExFreePool(c->chunk_item);
ExFreePool(c);
return STATUS_INTERNAL_ERROR;
}
ExInitializeResourceLite(&c->lock);
ExInitializeResourceLite(&c->changed_extents_lock);
InitializeListHead(&c->space);
InitializeListHead(&c->space_size);
InitializeListHead(&c->deleting);
InitializeListHead(&c->changed_extents);
InitializeListHead(&c->range_locks);
ExInitializeResourceLite(&c->range_locks_lock);
KeInitializeEvent(&c->range_locks_event, NotificationEvent, FALSE);
InitializeListHead(&c->partial_stripes);
ExInitializeResourceLite(&c->partial_stripes_lock);
c->last_alloc_set = FALSE;
c->last_stripe = 0;
InsertTailList(&Vcb->chunks, &c->list_entry);
c->list_entry_balance.Flink = NULL;
}
}
b = find_next_item(Vcb, &tp, &next_tp, FALSE, Irp);
if (b)
tp = next_tp;
} while (b);
Vcb->log_to_phys_loaded = TRUE;
if (Vcb->data_flags == 0)
Vcb->data_flags = BLOCK_FLAG_DATA | (Vcb->superblock.num_devices > 1 ? BLOCK_FLAG_RAID0 : 0);
if (Vcb->metadata_flags == 0)
Vcb->metadata_flags = BLOCK_FLAG_METADATA | (Vcb->superblock.num_devices > 1 ? BLOCK_FLAG_RAID1 : BLOCK_FLAG_DUPLICATE);
if (Vcb->system_flags == 0)
Vcb->system_flags = BLOCK_FLAG_SYSTEM | (Vcb->superblock.num_devices > 1 ? BLOCK_FLAG_RAID1 : BLOCK_FLAG_DUPLICATE);
if (Vcb->superblock.incompat_flags & BTRFS_INCOMPAT_FLAGS_MIXED_GROUPS) {
Vcb->metadata_flags |= BLOCK_FLAG_DATA;
Vcb->data_flags = Vcb->metadata_flags;
}
return STATUS_SUCCESS;
}
void protect_superblocks(_Inout_ chunk* c) {
UINT16 i = 0, j;
UINT64 off_start, off_end;
// The Linux driver also protects all the space before the first superblock.
// I realize this confuses physical and logical addresses, but this is what btrfs-progs does -
// evidently Linux assumes the chunk at 0 is always SINGLE.
if (c->offset < superblock_addrs[0])
space_list_subtract(c, FALSE, c->offset, superblock_addrs[0] - c->offset, NULL);
while (superblock_addrs[i] != 0) {
CHUNK_ITEM* ci = c->chunk_item;
CHUNK_ITEM_STRIPE* cis = (CHUNK_ITEM_STRIPE*)&ci[1];
if (ci->type & BLOCK_FLAG_RAID0 || ci->type & BLOCK_FLAG_RAID10) {
for (j = 0; j < ci->num_stripes; j++) {
UINT16 sub_stripes = max(ci->sub_stripes, 1);
if (cis[j].offset + (ci->size * ci->num_stripes / sub_stripes) > superblock_addrs[i] && cis[j].offset <= superblock_addrs[i] + sizeof(superblock)) {
#ifdef _DEBUG
UINT64 startoff;
UINT16 startoffstripe;
#endif
TRACE("cut out superblock in chunk %llx\n", c->offset);
off_start = superblock_addrs[i] - cis[j].offset;
off_start -= off_start % ci->stripe_length;
off_start *= ci->num_stripes / sub_stripes;
off_start += (j / sub_stripes) * ci->stripe_length;
off_end = off_start + ci->stripe_length;
#ifdef _DEBUG
get_raid0_offset(off_start, ci->stripe_length, ci->num_stripes / sub_stripes, &startoff, &startoffstripe);
TRACE("j = %u, startoffstripe = %u\n", j, startoffstripe);
TRACE("startoff = %llx, superblock = %llx\n", startoff + cis[j].offset, superblock_addrs[i]);
#endif
space_list_subtract(c, FALSE, c->offset + off_start, off_end - off_start, NULL);
}
}
} else if (ci->type & BLOCK_FLAG_RAID5) {
UINT64 stripe_size = ci->size / (ci->num_stripes - 1);
for (j = 0; j < ci->num_stripes; j++) {
if (cis[j].offset + stripe_size > superblock_addrs[i] && cis[j].offset <= superblock_addrs[i] + sizeof(superblock)) {
TRACE("cut out superblock in chunk %llx\n", c->offset);
off_start = superblock_addrs[i] - cis[j].offset;
off_start -= off_start % ci->stripe_length;
off_start *= ci->num_stripes - 1;
off_end = sector_align(superblock_addrs[i] - cis[j].offset + sizeof(superblock), ci->stripe_length);
off_end *= ci->num_stripes - 1;
TRACE("cutting out %llx, size %llx\n", c->offset + off_start, off_end - off_start);
space_list_subtract(c, FALSE, c->offset + off_start, off_end - off_start, NULL);
}
}
} else if (ci->type & BLOCK_FLAG_RAID6) {
UINT64 stripe_size = ci->size / (ci->num_stripes - 2);
for (j = 0; j < ci->num_stripes; j++) {
if (cis[j].offset + stripe_size > superblock_addrs[i] && cis[j].offset <= superblock_addrs[i] + sizeof(superblock)) {
TRACE("cut out superblock in chunk %llx\n", c->offset);
off_start = superblock_addrs[i] - cis[j].offset;
off_start -= off_start % ci->stripe_length;
off_start *= ci->num_stripes - 2;
off_end = sector_align(superblock_addrs[i] - cis[j].offset + sizeof(superblock), ci->stripe_length);
off_end *= ci->num_stripes - 2;
TRACE("cutting out %llx, size %llx\n", c->offset + off_start, off_end - off_start);
space_list_subtract(c, FALSE, c->offset + off_start, off_end - off_start, NULL);
}
}
} else { // SINGLE, DUPLICATE, RAID1
for (j = 0; j < ci->num_stripes; j++) {
if (cis[j].offset + ci->size > superblock_addrs[i] && cis[j].offset <= superblock_addrs[i] + sizeof(superblock)) {
TRACE("cut out superblock in chunk %llx\n", c->offset);
// The Linux driver protects the whole stripe in which the superblock lives
off_start = ((superblock_addrs[i] - cis[j].offset) / c->chunk_item->stripe_length) * c->chunk_item->stripe_length;
off_end = sector_align(superblock_addrs[i] - cis[j].offset + sizeof(superblock), c->chunk_item->stripe_length);
space_list_subtract(c, FALSE, c->offset + off_start, off_end - off_start, NULL);
}
}
}
i++;
}
}
NTSTATUS find_chunk_usage(_In_ _Requires_lock_held_(_Curr_->tree_lock) device_extension* Vcb, _In_opt_ PIRP Irp) {
LIST_ENTRY* le = Vcb->chunks.Flink;
chunk* c;
KEY searchkey;
traverse_ptr tp;
BLOCK_GROUP_ITEM* bgi;
NTSTATUS Status;
searchkey.obj_type = TYPE_BLOCK_GROUP_ITEM;
while (le != &Vcb->chunks) {
c = CONTAINING_RECORD(le, chunk, list_entry);
searchkey.obj_id = c->offset;
searchkey.offset = c->chunk_item->size;
Status = find_item(Vcb, Vcb->extent_root, &tp, &searchkey, FALSE, Irp);
if (!NT_SUCCESS(Status)) {
ERR("error - find_item returned %08x\n", Status);
return Status;
}
if (!keycmp(searchkey, tp.item->key)) {
if (tp.item->size >= sizeof(BLOCK_GROUP_ITEM)) {
bgi = (BLOCK_GROUP_ITEM*)tp.item->data;
c->used = c->oldused = bgi->used;
TRACE("chunk %llx has %llx bytes used\n", c->offset, c->used);
} else {
ERR("(%llx;%llx,%x,%llx) is %u bytes, expected %u\n",
Vcb->extent_root->id, tp.item->key.obj_id, tp.item->key.obj_type, tp.item->key.offset, tp.item->size, sizeof(BLOCK_GROUP_ITEM));
}
}
le = le->Flink;
}
Vcb->chunk_usage_found = TRUE;
return STATUS_SUCCESS;
}
static NTSTATUS load_sys_chunks(_In_ device_extension* Vcb) {
KEY key;
ULONG n = Vcb->superblock.n;
while (n > 0) {
if (n > sizeof(KEY)) {
RtlCopyMemory(&key, &Vcb->superblock.sys_chunk_array[Vcb->superblock.n - n], sizeof(KEY));
n -= sizeof(KEY);
} else
return STATUS_SUCCESS;
TRACE("bootstrap: %llx,%x,%llx\n", key.obj_id, key.obj_type, key.offset);
if (key.obj_type == TYPE_CHUNK_ITEM) {
CHUNK_ITEM* ci;
USHORT cisize;
sys_chunk* sc;
if (n < sizeof(CHUNK_ITEM))
return STATUS_SUCCESS;
ci = (CHUNK_ITEM*)&Vcb->superblock.sys_chunk_array[Vcb->superblock.n - n];
cisize = sizeof(CHUNK_ITEM) + (ci->num_stripes * sizeof(CHUNK_ITEM_STRIPE));
if (n < cisize)
return STATUS_SUCCESS;
sc = ExAllocatePoolWithTag(PagedPool, sizeof(sys_chunk), ALLOC_TAG);
if (!sc) {
ERR("out of memory\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
sc->key = key;
sc->size = cisize;
sc->data = ExAllocatePoolWithTag(PagedPool, sc->size, ALLOC_TAG);
if (!sc->data) {
ERR("out of memory\n");
ExFreePool(sc);
return STATUS_INSUFFICIENT_RESOURCES;
}
RtlCopyMemory(sc->data, ci, sc->size);
InsertTailList(&Vcb->sys_chunks, &sc->list_entry);
n -= cisize;
} else {
ERR("unexpected item %llx,%x,%llx in bootstrap\n", key.obj_id, key.obj_type, key.offset);
return STATUS_INTERNAL_ERROR;
}
}
return STATUS_SUCCESS;
}
_Ret_maybenull_
static root* find_default_subvol(_In_ _Requires_lock_held_(_Curr_->tree_lock) device_extension* Vcb, _In_opt_ PIRP Irp) {
LIST_ENTRY* le;
static char fn[] = "default";
static UINT32 crc32 = 0x8dbfc2d2;
if (Vcb->options.subvol_id != 0) {
le = Vcb->roots.Flink;
while (le != &Vcb->roots) {
root* r = CONTAINING_RECORD(le, root, list_entry);
if (r->id == Vcb->options.subvol_id)
return r;
le = le->Flink;
}
}
if (Vcb->superblock.incompat_flags & BTRFS_INCOMPAT_FLAGS_DEFAULT_SUBVOL) {
NTSTATUS Status;
KEY searchkey;
traverse_ptr tp;
DIR_ITEM* di;
searchkey.obj_id = Vcb->superblock.root_dir_objectid;
searchkey.obj_type = TYPE_DIR_ITEM;
searchkey.offset = crc32;
Status = find_item(Vcb, Vcb->root_root, &tp, &searchkey, FALSE, Irp);
if (!NT_SUCCESS(Status)) {
ERR("error - find_item returned %08x\n", Status);
goto end;
}
if (keycmp(tp.item->key, searchkey)) {
ERR("could not find (%llx,%x,%llx) in root tree\n", searchkey.obj_id, searchkey.obj_type, searchkey.offset);
goto end;
}
if (tp.item->size < sizeof(DIR_ITEM)) {
ERR("(%llx,%x,%llx) was %u bytes, expected at least %u\n", tp.item->key.obj_id, tp.item->key.obj_type, tp.item->key.offset, tp.item->size, sizeof(DIR_ITEM));
goto end;
}
di = (DIR_ITEM*)tp.item->data;
if (tp.item->size < sizeof(DIR_ITEM) - 1 + di->n) {
ERR("(%llx,%x,%llx) was %u bytes, expected %u\n", tp.item->key.obj_id, tp.item->key.obj_type, tp.item->key.offset, tp.item->size, sizeof(DIR_ITEM) - 1 + di->n);
goto end;
}
if (di->n != strlen(fn) || RtlCompareMemory(di->name, fn, di->n) != di->n) {
ERR("root DIR_ITEM had same CRC32, but was not \"default\"\n");
goto end;
}
if (di->key.obj_type != TYPE_ROOT_ITEM) {
ERR("default root has key (%llx,%x,%llx), expected subvolume\n", di->key.obj_id, di->key.obj_type, di->key.offset);
goto end;
}
le = Vcb->roots.Flink;
while (le != &Vcb->roots) {
root* r = CONTAINING_RECORD(le, root, list_entry);
if (r->id == di->key.obj_id)
return r;
le = le->Flink;
}
ERR("could not find root %llx, using default instead\n", di->key.obj_id);
}
end:
le = Vcb->roots.Flink;
while (le != &Vcb->roots) {
root* r = CONTAINING_RECORD(le, root, list_entry);
if (r->id == BTRFS_ROOT_FSTREE)
return r;
le = le->Flink;
}
return NULL;
}
void init_file_cache(_In_ PFILE_OBJECT FileObject, _In_ CC_FILE_SIZES* ccfs) {
TRACE("(%p, %p)\n", FileObject, ccfs);
CcInitializeCacheMap(FileObject, ccfs, FALSE, cache_callbacks, FileObject);
if (diskacc)
fCcSetAdditionalCacheAttributesEx(FileObject, CC_ENABLE_DISK_IO_ACCOUNTING);
CcSetReadAheadGranularity(FileObject, READ_AHEAD_GRANULARITY);
}
static NTSTATUS create_calc_threads(_In_ PDEVICE_OBJECT DeviceObject) {
device_extension* Vcb = DeviceObject->DeviceExtension;
ULONG i;
Vcb->calcthreads.num_threads = KeQueryActiveProcessorCount(NULL);
Vcb->calcthreads.threads = ExAllocatePoolWithTag(NonPagedPool, sizeof(drv_calc_thread) * Vcb->calcthreads.num_threads, ALLOC_TAG);
if (!Vcb->calcthreads.threads) {
ERR("out of memory\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
InitializeListHead(&Vcb->calcthreads.job_list);
ExInitializeResourceLite(&Vcb->calcthreads.lock);
KeInitializeEvent(&Vcb->calcthreads.event, NotificationEvent, FALSE);
RtlZeroMemory(Vcb->calcthreads.threads, sizeof(drv_calc_thread) * Vcb->calcthreads.num_threads);
for (i = 0; i < Vcb->calcthreads.num_threads; i++) {
NTSTATUS Status;
Vcb->calcthreads.threads[i].DeviceObject = DeviceObject;
KeInitializeEvent(&Vcb->calcthreads.threads[i].finished, NotificationEvent, FALSE);
Status = PsCreateSystemThread(&Vcb->calcthreads.threads[i].handle, 0, NULL, NULL, NULL, calc_thread, &Vcb->calcthreads.threads[i]);
if (!NT_SUCCESS(Status)) {
ULONG j;
ERR("PsCreateSystemThread returned %08x\n", Status);
for (j = 0; j < i; j++) {
Vcb->calcthreads.threads[i].quit = TRUE;
}
KeSetEvent(&Vcb->calcthreads.event, 0, FALSE);
return Status;
}
}
return STATUS_SUCCESS;
}
static BOOL is_btrfs_volume(_In_ PDEVICE_OBJECT DeviceObject) {
NTSTATUS Status;
MOUNTDEV_NAME mdn, *mdn2;
ULONG mdnsize;
Status = dev_ioctl(DeviceObject, IOCTL_MOUNTDEV_QUERY_DEVICE_NAME, NULL, 0, &mdn, sizeof(MOUNTDEV_NAME), TRUE, NULL);
if (!NT_SUCCESS(Status) && Status != STATUS_BUFFER_OVERFLOW) {
ERR("IOCTL_MOUNTDEV_QUERY_DEVICE_NAME returned %08x\n", Status);
return FALSE;
}
mdnsize = (ULONG)offsetof(MOUNTDEV_NAME, Name[0]) + mdn.NameLength;
mdn2 = ExAllocatePoolWithTag(PagedPool, mdnsize, ALLOC_TAG);
if (!mdn2) {
ERR("out of memory\n");
return FALSE;
}
Status = dev_ioctl(DeviceObject, IOCTL_MOUNTDEV_QUERY_DEVICE_NAME, NULL, 0, mdn2, mdnsize, TRUE, NULL);
if (!NT_SUCCESS(Status)) {
ERR("IOCTL_MOUNTDEV_QUERY_DEVICE_NAME returned %08x\n", Status);
ExFreePool(mdn2);
return FALSE;
}
if (mdn2->NameLength > wcslen(BTRFS_VOLUME_PREFIX) * sizeof(WCHAR) &&
RtlCompareMemory(mdn2->Name, BTRFS_VOLUME_PREFIX, wcslen(BTRFS_VOLUME_PREFIX) * sizeof(WCHAR)) == wcslen(BTRFS_VOLUME_PREFIX) * sizeof(WCHAR)) {
ExFreePool(mdn2);
return TRUE;
}
ExFreePool(mdn2);
return FALSE;
}
static NTSTATUS get_device_pnp_name_guid(_In_ PDEVICE_OBJECT DeviceObject, _Out_ PUNICODE_STRING pnp_name, _In_ const GUID* guid) {
NTSTATUS Status;
WCHAR *list = NULL, *s;
Status = IoGetDeviceInterfaces((PVOID)guid, NULL, 0, &list);
if (!NT_SUCCESS(Status)) {
ERR("IoGetDeviceInterfaces returned %08x\n", Status);
return Status;
}
s = list;
while (s[0] != 0) {
PFILE_OBJECT FileObject;
PDEVICE_OBJECT devobj;
UNICODE_STRING name;
name.Length = name.MaximumLength = (USHORT)wcslen(s) * sizeof(WCHAR);
name.Buffer = s;
if (NT_SUCCESS(IoGetDeviceObjectPointer(&name, FILE_READ_ATTRIBUTES, &FileObject, &devobj))) {
if (DeviceObject == devobj || DeviceObject == FileObject->DeviceObject) {
ObDereferenceObject(FileObject);
pnp_name->Buffer = ExAllocatePoolWithTag(PagedPool, name.Length, ALLOC_TAG);
if (!pnp_name->Buffer) {
ERR("out of memory\n");
Status = STATUS_INSUFFICIENT_RESOURCES;
goto end;
}
RtlCopyMemory(pnp_name->Buffer, name.Buffer, name.Length);
pnp_name->Length = pnp_name->MaximumLength = name.Length;
Status = STATUS_SUCCESS;
goto end;
}
ObDereferenceObject(FileObject);
}
s = &s[wcslen(s) + 1];
}
pnp_name->Length = pnp_name->MaximumLength = 0;
pnp_name->Buffer = 0;
Status = STATUS_NOT_FOUND;
end:
if (list)
ExFreePool(list);
return Status;
}
NTSTATUS get_device_pnp_name(_In_ PDEVICE_OBJECT DeviceObject, _Out_ PUNICODE_STRING pnp_name, _Out_ const GUID** guid) {
NTSTATUS Status;
Status = get_device_pnp_name_guid(DeviceObject, pnp_name, &GUID_DEVINTERFACE_VOLUME);
if (NT_SUCCESS(Status)) {
*guid = &GUID_DEVINTERFACE_VOLUME;
return Status;
}
Status = get_device_pnp_name_guid(DeviceObject, pnp_name, &GUID_DEVINTERFACE_HIDDEN_VOLUME);
if (NT_SUCCESS(Status)) {
*guid = &GUID_DEVINTERFACE_HIDDEN_VOLUME;
return Status;
}
Status = get_device_pnp_name_guid(DeviceObject, pnp_name, &GUID_DEVINTERFACE_DISK);
if (NT_SUCCESS(Status)) {
*guid = &GUID_DEVINTERFACE_DISK;
return Status;
}
return STATUS_NOT_FOUND;
}
_Success_(return>=0)
static NTSTATUS check_mount_device(_In_ PDEVICE_OBJECT DeviceObject, _Out_ BOOL* no_pnp) {
NTSTATUS Status;
ULONG to_read;
superblock* sb;
UINT32 crc32;
UNICODE_STRING pnp_name;
const GUID* guid;
to_read = DeviceObject->SectorSize == 0 ? sizeof(superblock) : (ULONG)sector_align(sizeof(superblock), DeviceObject->SectorSize);
sb = ExAllocatePoolWithTag(NonPagedPool, to_read, ALLOC_TAG);
if (!sb) {
ERR("out of memory\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
Status = sync_read_phys(DeviceObject, superblock_addrs[0], to_read, (PUCHAR)sb, TRUE);
if (!NT_SUCCESS(Status)) {
ERR("sync_read_phys returned %08x\n", Status);
goto end;
}
if (sb->magic != BTRFS_MAGIC) {
Status = STATUS_SUCCESS;
goto end;
}
crc32 = ~calc_crc32c(0xffffffff, (UINT8*)&sb->uuid, (ULONG)sizeof(superblock) - sizeof(sb->checksum));
if (crc32 != *((UINT32*)sb->checksum)) {
WARN("crc32 was %08x, expected %08x\n", crc32, *((UINT32*)sb->checksum));
Status = STATUS_SUCCESS;
goto end;
}
DeviceObject->Flags &= ~DO_VERIFY_VOLUME;
pnp_name.Buffer = NULL;
Status = get_device_pnp_name(DeviceObject, &pnp_name, &guid);
if (!NT_SUCCESS(Status)) {
WARN("get_device_pnp_name returned %08x\n", Status);
pnp_name.Length = 0;
}
if (pnp_name.Length == 0)
*no_pnp = TRUE;
else {
*no_pnp = FALSE;
volume_arrival(drvobj, &pnp_name);
}
if (pnp_name.Buffer)
ExFreePool(pnp_name.Buffer);
Status = STATUS_SUCCESS;
end:
ExFreePool(sb);
return Status;
}
static BOOL still_has_superblock(_In_ PDEVICE_OBJECT device) {
NTSTATUS Status;
ULONG to_read;
superblock* sb;
PDEVICE_OBJECT device2;
if (!device)
return FALSE;
to_read = device->SectorSize == 0 ? sizeof(superblock) : (ULONG)sector_align(sizeof(superblock), device->SectorSize);
sb = ExAllocatePoolWithTag(NonPagedPool, to_read, ALLOC_TAG);
if (!sb) {
ERR("out of memory\n");
return FALSE;
}
Status = sync_read_phys(device, superblock_addrs[0], to_read, (PUCHAR)sb, TRUE);
if (!NT_SUCCESS(Status)) {
ERR("Failed to read superblock: %08x\n", Status);
ExFreePool(sb);
return FALSE;
}
if (sb->magic != BTRFS_MAGIC) {
TRACE("not a BTRFS volume\n");
ExFreePool(sb);
return FALSE;
} else {
UINT32 crc32 = ~calc_crc32c(0xffffffff, (UINT8*)&sb->uuid, (ULONG)sizeof(superblock) - sizeof(sb->checksum));
if (crc32 != *((UINT32*)sb->checksum)) {
WARN("crc32 was %08x, expected %08x\n", crc32, *((UINT32*)sb->checksum));
ExFreePool(sb);
return FALSE;
}
}
device2 = device;
do {
device2->Flags &= ~DO_VERIFY_VOLUME;
device2 = IoGetLowerDeviceObject(device2);
} while (device2);
ExFreePool(sb);
return TRUE;
}
static NTSTATUS mount_vol(_In_ PDEVICE_OBJECT DeviceObject, _In_ PIRP Irp) {
PIO_STACK_LOCATION IrpSp;
PDEVICE_OBJECT NewDeviceObject = NULL;
PDEVICE_OBJECT DeviceToMount, readobj;
NTSTATUS Status;
device_extension* Vcb = NULL;
LIST_ENTRY *le, batchlist;
KEY searchkey;
traverse_ptr tp;
fcb* root_fcb = NULL;
ccb* root_ccb = NULL;
BOOL init_lookaside = FALSE;
device* dev;
volume_device_extension* vde = NULL;
pdo_device_extension* pdode = NULL;
volume_child* vc;
BOOL no_pnp = FALSE;
UINT64 readobjsize;
TRACE("(%p, %p)\n", DeviceObject, Irp);
if (DeviceObject != master_devobj) {
Status = STATUS_INVALID_DEVICE_REQUEST;
goto exit;
}
IrpSp = IoGetCurrentIrpStackLocation(Irp);
DeviceToMount = IrpSp->Parameters.MountVolume.DeviceObject;
if (!is_btrfs_volume(DeviceToMount)) {
Status = check_mount_device(DeviceToMount, &no_pnp);
if (!NT_SUCCESS(Status))
WARN("check_mount_device returned %08x\n", Status);
if (!no_pnp) {
Status = STATUS_UNRECOGNIZED_VOLUME;
goto exit2;
}
} else {
PDEVICE_OBJECT pdo;
pdo = DeviceToMount;
while (IoGetLowerDeviceObject(pdo)) {
pdo = IoGetLowerDeviceObject(pdo);
}
ExAcquireResourceSharedLite(&pdo_list_lock, TRUE);
le = pdo_list.Flink;
while (le != &pdo_list) {
pdo_device_extension* pdode = CONTAINING_RECORD(le, pdo_device_extension, list_entry);
if (pdode->pdo == pdo) {
vde = pdode->vde;
break;
}
le = le->Flink;
}
ExReleaseResourceLite(&pdo_list_lock);
if (!vde || vde->type != VCB_TYPE_VOLUME) {
vde = NULL;
Status = STATUS_UNRECOGNIZED_VOLUME;
goto exit2;
}
}
if (vde) {
pdode = vde->pdode;
ExAcquireResourceExclusiveLite(&pdode->child_lock, TRUE);
le = pdode->children.Flink;
while (le != &pdode->children) {
LIST_ENTRY* le2 = le->Flink;
vc = CONTAINING_RECORD(pdode->children.Flink, volume_child, list_entry);
if (!still_has_superblock(vc->devobj)) {
remove_volume_child(vde, vc, FALSE);
if (pdode->num_children == 0) {
ERR("error - number of devices is zero\n");
Status = STATUS_INTERNAL_ERROR;
goto exit2;
}
Status = STATUS_DEVICE_NOT_READY;
goto exit2;
}
le = le2;
}
if (pdode->num_children == 0 || pdode->children_loaded == 0) {
ERR("error - number of devices is zero\n");
Status = STATUS_INTERNAL_ERROR;
goto exit;
}
ExConvertExclusiveToSharedLite(&pdode->child_lock);
vc = CONTAINING_RECORD(pdode->children.Flink, volume_child, list_entry);
readobj = vc->devobj;
readobjsize = vc->size;
vde->device->Characteristics &= ~FILE_DEVICE_SECURE_OPEN;
} else {
GET_LENGTH_INFORMATION gli;
vc = NULL;
readobj = DeviceToMount;
Status = dev_ioctl(readobj, IOCTL_DISK_GET_LENGTH_INFO, NULL, 0,
&gli, sizeof(gli), TRUE, NULL);
if (!NT_SUCCESS(Status)) {
ERR("error reading length information: %08x\n", Status);
goto exit;
}
readobjsize = gli.Length.QuadPart;
}
Status = IoCreateDevice(drvobj, sizeof(device_extension), NULL, FILE_DEVICE_DISK_FILE_SYSTEM, 0, FALSE, &NewDeviceObject);
if (!NT_SUCCESS(Status)) {
ERR("IoCreateDevice returned %08x\n", Status);
Status = STATUS_UNRECOGNIZED_VOLUME;
goto exit;
}
NewDeviceObject->Flags |= DO_DIRECT_IO;
// Some programs seem to expect that the sector size will be 512, for
// FILE_NO_INTERMEDIATE_BUFFERING and the like.
NewDeviceObject->SectorSize = min(DeviceToMount->SectorSize, 512);
Vcb = (PVOID)NewDeviceObject->DeviceExtension;
RtlZeroMemory(Vcb, sizeof(device_extension));
Vcb->type = VCB_TYPE_FS;
Vcb->vde = vde;
ExInitializeResourceLite(&Vcb->tree_lock);
Vcb->need_write = FALSE;
ExInitializeResourceLite(&Vcb->fcb_lock);
ExInitializeResourceLite(&Vcb->chunk_lock);
ExInitializeResourceLite(&Vcb->dirty_fcbs_lock);
ExInitializeResourceLite(&Vcb->dirty_filerefs_lock);
ExInitializeResourceLite(&Vcb->dirty_subvols_lock);
ExInitializeResourceLite(&Vcb->scrub.stats_lock);
ExInitializeResourceLite(&Vcb->load_lock);
ExAcquireResourceExclusiveLite(&Vcb->load_lock, TRUE);
ExAcquireResourceExclusiveLite(&Vcb->tree_lock, TRUE);
DeviceToMount->Flags |= DO_DIRECT_IO;
Status = read_superblock(Vcb, readobj, readobjsize);
if (!NT_SUCCESS(Status)) {
if (!IoIsErrorUserInduced(Status))
Status = STATUS_UNRECOGNIZED_VOLUME;
else if (Irp->Tail.Overlay.Thread)
IoSetHardErrorOrVerifyDevice(Irp, readobj);
goto exit;
}
if (!vde && Vcb->superblock.num_devices > 1) {
ERR("cannot mount multi-device FS with non-PNP device\n");
Status = STATUS_UNRECOGNIZED_VOLUME;
goto exit;
}
Status = registry_load_volume_options(Vcb);
if (!NT_SUCCESS(Status)) {
ERR("registry_load_volume_options returned %08x\n", Status);
goto exit;
}
if (pdode && pdode->children_loaded < pdode->num_children && (!Vcb->options.allow_degraded || !finished_probing || degraded_wait)) {
ERR("could not mount as %u device(s) missing\n", pdode->num_children - pdode->children_loaded);
Status = STATUS_DEVICE_NOT_READY;
goto exit;
}
if (Vcb->options.ignore) {
TRACE("ignoring volume\n");
Status = STATUS_UNRECOGNIZED_VOLUME;
goto exit;
}
if (Vcb->superblock.incompat_flags & ~INCOMPAT_SUPPORTED) {
WARN("cannot mount because of unsupported incompat flags (%llx)\n", Vcb->superblock.incompat_flags & ~INCOMPAT_SUPPORTED);
Status = STATUS_UNRECOGNIZED_VOLUME;
goto exit;
}
Vcb->readonly = FALSE;
if (Vcb->superblock.compat_ro_flags & ~COMPAT_RO_SUPPORTED) {
WARN("mounting read-only because of unsupported flags (%llx)\n", Vcb->superblock.compat_ro_flags & ~COMPAT_RO_SUPPORTED);
Vcb->readonly = TRUE;
}
if (Vcb->options.readonly)
Vcb->readonly = TRUE;
Vcb->superblock.generation++;
Vcb->superblock.incompat_flags |= BTRFS_INCOMPAT_FLAGS_MIXED_BACKREF;
InitializeListHead(&Vcb->devices);
dev = ExAllocatePoolWithTag(NonPagedPool, sizeof(device), ALLOC_TAG);
if (!dev) {
ERR("out of memory\n");
Status = STATUS_INSUFFICIENT_RESOURCES;
goto exit;
}
dev->devobj = readobj;
RtlCopyMemory(&dev->devitem, &Vcb->superblock.dev_item, sizeof(DEV_ITEM));
if (dev->devitem.num_bytes > readobjsize) {
WARN("device %llx: DEV_ITEM says %llx bytes, but Windows only reports %llx\n", dev->devitem.dev_id,
dev->devitem.num_bytes, readobjsize);
dev->devitem.num_bytes = readobjsize;
}
dev->seeding = Vcb->superblock.flags & BTRFS_SUPERBLOCK_FLAGS_SEEDING ? TRUE : FALSE;
init_device(Vcb, dev, TRUE);
InsertTailList(&Vcb->devices, &dev->list_entry);
Vcb->devices_loaded = 1;
if (DeviceToMount->Flags & DO_SYSTEM_BOOT_PARTITION)
Vcb->disallow_dismount = TRUE;
TRACE("DeviceToMount = %p\n", DeviceToMount);
TRACE("IrpSp->Parameters.MountVolume.Vpb = %p\n", IrpSp->Parameters.MountVolume.Vpb);
NewDeviceObject->StackSize = DeviceToMount->StackSize + 1;
NewDeviceObject->Flags &= ~DO_DEVICE_INITIALIZING;
InitializeListHead(&Vcb->roots);
InitializeListHead(&Vcb->drop_roots);
Vcb->log_to_phys_loaded = FALSE;
add_root(Vcb, BTRFS_ROOT_CHUNK, Vcb->superblock.chunk_tree_addr, Vcb->superblock.chunk_root_generation, NULL);
if (!Vcb->chunk_root) {
ERR("Could not load chunk root.\n");
Status = STATUS_INTERNAL_ERROR;
goto exit;
}
InitializeListHead(&Vcb->sys_chunks);
Status = load_sys_chunks(Vcb);
if (!NT_SUCCESS(Status)) {
ERR("load_sys_chunks returned %08x\n", Status);
goto exit;
}
InitializeListHead(&Vcb->chunks);
InitializeListHead(&Vcb->trees);
InitializeListHead(&Vcb->trees_hash);
InitializeListHead(&Vcb->all_fcbs);
InitializeListHead(&Vcb->dirty_fcbs);
InitializeListHead(&Vcb->dirty_filerefs);
InitializeListHead(&Vcb->dirty_subvols);
InitializeListHead(&Vcb->send_ops);
InitializeListHead(&Vcb->DirNotifyList);
InitializeListHead(&Vcb->scrub.errors);
FsRtlNotifyInitializeSync(&Vcb->NotifySync);
ExInitializePagedLookasideList(&Vcb->tree_data_lookaside, NULL, NULL, 0, sizeof(tree_data), ALLOC_TAG, 0);
ExInitializePagedLookasideList(&Vcb->traverse_ptr_lookaside, NULL, NULL, 0, sizeof(traverse_ptr), ALLOC_TAG, 0);
ExInitializePagedLookasideList(&Vcb->batch_item_lookaside, NULL, NULL, 0, sizeof(batch_item), ALLOC_TAG, 0);
ExInitializePagedLookasideList(&Vcb->fileref_lookaside, NULL, NULL, 0, sizeof(file_ref), ALLOC_TAG, 0);
ExInitializePagedLookasideList(&Vcb->fcb_lookaside, NULL, NULL, 0, sizeof(fcb), ALLOC_TAG, 0);
ExInitializePagedLookasideList(&Vcb->name_bit_lookaside, NULL, NULL, 0, sizeof(name_bit), ALLOC_TAG, 0);
ExInitializeNPagedLookasideList(&Vcb->range_lock_lookaside, NULL, NULL, 0, sizeof(range_lock), ALLOC_TAG, 0);
ExInitializeNPagedLookasideList(&Vcb->fileref_np_lookaside, NULL, NULL, 0, sizeof(file_ref_nonpaged), ALLOC_TAG, 0);
ExInitializeNPagedLookasideList(&Vcb->fcb_np_lookaside, NULL, NULL, 0, sizeof(fcb_nonpaged), ALLOC_TAG, 0);
init_lookaside = TRUE;
Vcb->Vpb = IrpSp->Parameters.MountVolume.Vpb;
Status = load_chunk_root(Vcb, Irp);
if (!NT_SUCCESS(Status)) {
ERR("load_chunk_root returned %08x\n", Status);
goto exit;
}
if (Vcb->superblock.num_devices > 1) {
if (Vcb->devices_loaded < Vcb->superblock.num_devices && (!Vcb->options.allow_degraded || !finished_probing)) {
ERR("could not mount as %u device(s) missing\n", Vcb->superblock.num_devices - Vcb->devices_loaded);
IoRaiseInformationalHardError(IO_ERR_INTERNAL_ERROR, NULL, NULL);
Status = STATUS_INTERNAL_ERROR;
goto exit;
}
if (dev->readonly && !Vcb->readonly) {
Vcb->readonly = TRUE;
le = Vcb->devices.Flink;
while (le != &Vcb->devices) {
device* dev2 = CONTAINING_RECORD(le, device, list_entry);
if (dev2->readonly && !dev2->seeding)
break;
if (!dev2->readonly) {
Vcb->readonly = FALSE;
break;
}
le = le->Flink;
}
if (Vcb->readonly)
WARN("setting volume to readonly\n");
}
} else {
if (dev->readonly) {
WARN("setting volume to readonly as device is readonly\n");
Vcb->readonly = TRUE;
}
}
add_root(Vcb, BTRFS_ROOT_ROOT, Vcb->superblock.root_tree_addr, Vcb->superblock.generation - 1, NULL);
if (!Vcb->root_root) {
ERR("Could not load root of roots.\n");
Status = STATUS_INTERNAL_ERROR;
goto exit;
}
Status = look_for_roots(Vcb, Irp);
if (!NT_SUCCESS(Status)) {
ERR("look_for_roots returned %08x\n", Status);
goto exit;
}
if (!Vcb->readonly) {
Status = find_chunk_usage(Vcb, Irp);
if (!NT_SUCCESS(Status)) {
ERR("find_chunk_usage returned %08x\n", Status);
goto exit;
}
}
InitializeListHead(&batchlist);
// We've already increased the generation by one
if (!Vcb->readonly && (
Vcb->options.clear_cache ||
(!(Vcb->superblock.compat_ro_flags & BTRFS_COMPAT_RO_FLAGS_FREE_SPACE_CACHE) && Vcb->superblock.generation - 1 != Vcb->superblock.cache_generation) ||
(Vcb->superblock.compat_ro_flags & BTRFS_COMPAT_RO_FLAGS_FREE_SPACE_CACHE && !(Vcb->superblock.compat_ro_flags & BTRFS_COMPAT_RO_FLAGS_FREE_SPACE_CACHE_VALID)))) {
if (Vcb->options.clear_cache)
WARN("ClearCache option was set, clearing cache...\n");
else if (Vcb->superblock.compat_ro_flags & BTRFS_COMPAT_RO_FLAGS_FREE_SPACE_CACHE && !(Vcb->superblock.compat_ro_flags & BTRFS_COMPAT_RO_FLAGS_FREE_SPACE_CACHE_VALID))
WARN("clearing free-space tree created by buggy Linux driver\n");
else
WARN("generation was %llx, free-space cache generation was %llx; clearing cache...\n", Vcb->superblock.generation - 1, Vcb->superblock.cache_generation);
Status = clear_free_space_cache(Vcb, &batchlist, Irp);
if (!NT_SUCCESS(Status)) {
ERR("clear_free_space_cache returned %08x\n", Status);
clear_batch_list(Vcb, &batchlist);
goto exit;
}
}
Status = commit_batch_list(Vcb, &batchlist, Irp);
if (!NT_SUCCESS(Status)) {
ERR("commit_batch_list returned %08x\n", Status);
goto exit;
}
Vcb->volume_fcb = create_fcb(Vcb, NonPagedPool);
if (!Vcb->volume_fcb) {
ERR("out of memory\n");
Status = STATUS_INSUFFICIENT_RESOURCES;
goto exit;
}
Vcb->volume_fcb->Vcb = Vcb;
Vcb->volume_fcb->sd = NULL;
Vcb->dummy_fcb = create_fcb(Vcb, NonPagedPool);
if (!Vcb->dummy_fcb) {
ERR("out of memory\n");
Status = STATUS_INSUFFICIENT_RESOURCES;
goto exit;
}
Vcb->dummy_fcb->Vcb = Vcb;
Vcb->dummy_fcb->type = BTRFS_TYPE_DIRECTORY;
Vcb->dummy_fcb->inode = 2;
Vcb->dummy_fcb->subvol = Vcb->root_root;
Vcb->dummy_fcb->atts = FILE_ATTRIBUTE_DIRECTORY;
Vcb->dummy_fcb->inode_item.st_nlink = 1;
Vcb->dummy_fcb->inode_item.st_mode = __S_IFDIR;
Vcb->dummy_fcb->hash_ptrs = ExAllocatePoolWithTag(PagedPool, sizeof(LIST_ENTRY*) * 256, ALLOC_TAG);
if (!Vcb->dummy_fcb->hash_ptrs) {
ERR("out of memory\n");
Status = STATUS_INSUFFICIENT_RESOURCES;
goto exit;
}
RtlZeroMemory(Vcb->dummy_fcb->hash_ptrs, sizeof(LIST_ENTRY*) * 256);
Vcb->dummy_fcb->hash_ptrs_uc = ExAllocatePoolWithTag(PagedPool, sizeof(LIST_ENTRY*) * 256, ALLOC_TAG);
if (!Vcb->dummy_fcb->hash_ptrs_uc) {
ERR("out of memory\n");
Status = STATUS_INSUFFICIENT_RESOURCES;
goto exit;
}
RtlZeroMemory(Vcb->dummy_fcb->hash_ptrs_uc, sizeof(LIST_ENTRY*) * 256);
root_fcb = create_fcb(Vcb, NonPagedPool);
if (!root_fcb) {
ERR("out of memory\n");
Status = STATUS_INSUFFICIENT_RESOURCES;
goto exit;
}
root_fcb->Vcb = Vcb;
root_fcb->inode = SUBVOL_ROOT_INODE;
root_fcb->type = BTRFS_TYPE_DIRECTORY;
#ifdef DEBUG_FCB_REFCOUNTS
WARN("volume FCB = %p\n", Vcb->volume_fcb);
WARN("root FCB = %p\n", root_fcb);
#endif
root_fcb->subvol = find_default_subvol(Vcb, Irp);
if (!root_fcb->subvol) {
ERR("could not find top subvol\n");
Status = STATUS_INTERNAL_ERROR;
goto exit;
}
Status = load_dir_children(Vcb, root_fcb, TRUE, Irp);
if (!NT_SUCCESS(Status)) {
ERR("load_dir_children returned %08x\n", Status);
goto exit;
}
searchkey.obj_id = root_fcb->inode;
searchkey.obj_type = TYPE_INODE_ITEM;
searchkey.offset = 0xffffffffffffffff;
Status = find_item(Vcb, root_fcb->subvol, &tp, &searchkey, FALSE, Irp);
if (!NT_SUCCESS(Status)) {
ERR("error - find_item returned %08x\n", Status);
goto exit;
}
if (tp.item->key.obj_id != searchkey.obj_id || tp.item->key.obj_type != searchkey.obj_type) {
ERR("couldn't find INODE_ITEM for root directory\n");
Status = STATUS_INTERNAL_ERROR;
goto exit;
}
if (tp.item->size > 0)
RtlCopyMemory(&root_fcb->inode_item, tp.item->data, min(sizeof(INODE_ITEM), tp.item->size));
fcb_get_sd(root_fcb, NULL, TRUE, Irp);
root_fcb->atts = get_file_attributes(Vcb, root_fcb->subvol, root_fcb->inode, root_fcb->type, FALSE, FALSE, Irp);
Vcb->root_fileref = create_fileref(Vcb);
if (!Vcb->root_fileref) {
ERR("out of memory\n");
Status = STATUS_INSUFFICIENT_RESOURCES;
goto exit;
}
Vcb->root_fileref->fcb = root_fcb;
InsertTailList(&root_fcb->subvol->fcbs, &root_fcb->list_entry);
InsertTailList(&Vcb->all_fcbs, &root_fcb->list_entry_all);
root_fcb->fileref = Vcb->root_fileref;
root_ccb = ExAllocatePoolWithTag(PagedPool, sizeof(ccb), ALLOC_TAG);
if (!root_ccb) {
ERR("out of memory\n");
Status = STATUS_INSUFFICIENT_RESOURCES;
goto exit;
}
Vcb->root_file = IoCreateStreamFileObject(NULL, DeviceToMount);
Vcb->root_file->FsContext = root_fcb;
Vcb->root_file->SectionObjectPointer = &root_fcb->nonpaged->segment_object;
Vcb->root_file->Vpb = DeviceObject->Vpb;
RtlZeroMemory(root_ccb, sizeof(ccb));
root_ccb->NodeType = BTRFS_NODE_TYPE_CCB;
root_ccb->NodeSize = sizeof(ccb);
Vcb->root_file->FsContext2 = root_ccb;
_SEH2_TRY {
CcInitializeCacheMap(Vcb->root_file, (PCC_FILE_SIZES)(&root_fcb->Header.AllocationSize), FALSE, cache_callbacks, Vcb->root_file);
} _SEH2_EXCEPT (EXCEPTION_EXECUTE_HANDLER) {
Status = _SEH2_GetExceptionCode();
goto exit;
} _SEH2_END;
le = Vcb->devices.Flink;
while (le != &Vcb->devices) {
device* dev2 = CONTAINING_RECORD(le, device, list_entry);
Status = find_disk_holes(Vcb, dev2, Irp);
if (!NT_SUCCESS(Status)) {
ERR("find_disk_holes returned %08x\n", Status);
goto exit;
}
le = le->Flink;
}
NewDeviceObject->Vpb = IrpSp->Parameters.MountVolume.Vpb;
IrpSp->Parameters.MountVolume.Vpb->DeviceObject = NewDeviceObject;
IrpSp->Parameters.MountVolume.Vpb->Flags |= VPB_MOUNTED;
NewDeviceObject->Vpb->VolumeLabelLength = 4; // FIXME
NewDeviceObject->Vpb->VolumeLabel[0] = '?';
NewDeviceObject->Vpb->VolumeLabel[1] = 0;
NewDeviceObject->Vpb->ReferenceCount++; // FIXME - should we deref this at any point?
KeInitializeEvent(&Vcb->flush_thread_finished, NotificationEvent, FALSE);
Status = PsCreateSystemThread(&Vcb->flush_thread_handle, 0, NULL, NULL, NULL, flush_thread, NewDeviceObject);
if (!NT_SUCCESS(Status)) {
ERR("PsCreateSystemThread returned %08x\n", Status);
goto exit;
}
Status = create_calc_threads(NewDeviceObject);
if (!NT_SUCCESS(Status)) {
ERR("create_calc_threads returned %08x\n", Status);
goto exit;
}
Status = registry_mark_volume_mounted(&Vcb->superblock.uuid);
if (!NT_SUCCESS(Status))
WARN("registry_mark_volume_mounted returned %08x\n", Status);
Status = look_for_balance_item(Vcb);
if (!NT_SUCCESS(Status) && Status != STATUS_NOT_FOUND)
WARN("look_for_balance_item returned %08x\n", Status);
Status = STATUS_SUCCESS;
if (vde)
vde->mounted_device = NewDeviceObject;
ExInitializeResourceLite(&Vcb->send_load_lock);
exit:
if (pdode)
ExReleaseResourceLite(&pdode->child_lock);
exit2:
if (Vcb) {
ExReleaseResourceLite(&Vcb->tree_lock);
ExReleaseResourceLite(&Vcb->load_lock);
}
if (!NT_SUCCESS(Status)) {
if (Vcb) {
if (init_lookaside) {
ExDeletePagedLookasideList(&Vcb->tree_data_lookaside);
ExDeletePagedLookasideList(&Vcb->traverse_ptr_lookaside);
ExDeletePagedLookasideList(&Vcb->batch_item_lookaside);
ExDeletePagedLookasideList(&Vcb->fileref_lookaside);
ExDeletePagedLookasideList(&Vcb->fcb_lookaside);
ExDeletePagedLookasideList(&Vcb->name_bit_lookaside);
ExDeleteNPagedLookasideList(&Vcb->range_lock_lookaside);
ExDeleteNPagedLookasideList(&Vcb->fileref_np_lookaside);
ExDeleteNPagedLookasideList(&Vcb->fcb_np_lookaside);
}
if (Vcb->root_file)
ObDereferenceObject(Vcb->root_file);
else if (Vcb->root_fileref) {
ExAcquireResourceExclusiveLite(&Vcb->fcb_lock, TRUE);
free_fileref(Vcb, Vcb->root_fileref);
ExReleaseResourceLite(&Vcb->fcb_lock);
} else if (root_fcb) {
ExAcquireResourceExclusiveLite(&Vcb->fcb_lock, TRUE);
free_fcb(Vcb, root_fcb);
ExReleaseResourceLite(&Vcb->fcb_lock);
}
if (Vcb->volume_fcb) {
ExAcquireResourceExclusiveLite(&Vcb->fcb_lock, TRUE);
free_fcb(Vcb, Vcb->volume_fcb);
ExReleaseResourceLite(&Vcb->fcb_lock);
}
ExDeleteResourceLite(&Vcb->tree_lock);
ExDeleteResourceLite(&Vcb->load_lock);
ExDeleteResourceLite(&Vcb->fcb_lock);
ExDeleteResourceLite(&Vcb->chunk_lock);
ExDeleteResourceLite(&Vcb->dirty_fcbs_lock);
ExDeleteResourceLite(&Vcb->dirty_filerefs_lock);
ExDeleteResourceLite(&Vcb->dirty_subvols_lock);
ExDeleteResourceLite(&Vcb->scrub.stats_lock);
if (Vcb->devices.Flink) {
while (!IsListEmpty(&Vcb->devices)) {
device* dev2 = CONTAINING_RECORD(RemoveHeadList(&Vcb->devices), device, list_entry);
ExFreePool(dev2);
}
}
}
if (NewDeviceObject)
IoDeleteDevice(NewDeviceObject);
} else {
ExAcquireResourceExclusiveLite(&global_loading_lock, TRUE);
InsertTailList(&VcbList, &Vcb->list_entry);
ExReleaseResourceLite(&global_loading_lock);
FsRtlNotifyVolumeEvent(Vcb->root_file, FSRTL_VOLUME_MOUNT);
}
TRACE("mount_vol done (status: %lx)\n", Status);
return Status;
}
static NTSTATUS verify_device(_In_ device_extension* Vcb, _Inout_ device* dev) {
NTSTATUS Status;
superblock* sb;
UINT32 crc32;
ULONG to_read, cc;
if (!dev->devobj)
return STATUS_WRONG_VOLUME;
if (dev->removable) {
IO_STATUS_BLOCK iosb;
Status = dev_ioctl(dev->devobj, IOCTL_STORAGE_CHECK_VERIFY, NULL, 0, &cc, sizeof(ULONG), TRUE, &iosb);
if (IoIsErrorUserInduced(Status)) {
ERR("IOCTL_STORAGE_CHECK_VERIFY returned %08x (user-induced)\n", Status);
if (Vcb->vde) {
pdo_device_extension* pdode = Vcb->vde->pdode;
LIST_ENTRY* le2;
BOOL changed = FALSE;
ExAcquireResourceExclusiveLite(&pdode->child_lock, TRUE);
le2 = pdode->children.Flink;
while (le2 != &pdode->children) {
volume_child* vc = CONTAINING_RECORD(le2, volume_child, list_entry);
if (vc->devobj == dev->devobj) {
TRACE("removing device\n");
remove_volume_child(Vcb->vde, vc, TRUE);
changed = TRUE;
break;
}
le2 = le2->Flink;
}
if (!changed)
ExReleaseResourceLite(&pdode->child_lock);
}
} else if (!NT_SUCCESS(Status)) {
ERR("IOCTL_STORAGE_CHECK_VERIFY returned %08x\n", Status);
return Status;
} else if (iosb.Information < sizeof(ULONG)) {
ERR("iosb.Information was too short\n");
return STATUS_INTERNAL_ERROR;
}
dev->change_count = cc;
}
to_read = dev->devobj->SectorSize == 0 ? sizeof(superblock) : (ULONG)sector_align(sizeof(superblock), dev->devobj->SectorSize);
sb = ExAllocatePoolWithTag(NonPagedPool, to_read, ALLOC_TAG);
if (!sb) {
ERR("out of memory\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
Status = sync_read_phys(dev->devobj, superblock_addrs[0], to_read, (PUCHAR)sb, TRUE);
if (!NT_SUCCESS(Status)) {
ERR("Failed to read superblock: %08x\n", Status);
ExFreePool(sb);
return Status;
}
if (sb->magic != BTRFS_MAGIC) {
ERR("not a BTRFS volume\n");
ExFreePool(sb);
return STATUS_WRONG_VOLUME;
}
crc32 = ~calc_crc32c(0xffffffff, (UINT8*)&sb->uuid, (ULONG)sizeof(superblock) - sizeof(sb->checksum));
TRACE("crc32 was %08x, expected %08x\n", crc32, *((UINT32*)sb->checksum));
if (crc32 != *((UINT32*)sb->checksum)) {
ERR("checksum error\n");
ExFreePool(sb);
return STATUS_WRONG_VOLUME;
}
if (RtlCompareMemory(&sb->uuid, &Vcb->superblock.uuid, sizeof(BTRFS_UUID)) != sizeof(BTRFS_UUID)) {
ERR("different UUIDs\n");
ExFreePool(sb);
return STATUS_WRONG_VOLUME;
}
ExFreePool(sb);
dev->devobj->Flags &= ~DO_VERIFY_VOLUME;
return STATUS_SUCCESS;
}
static NTSTATUS verify_volume(_In_ PDEVICE_OBJECT devobj) {
device_extension* Vcb = devobj->DeviceExtension;
NTSTATUS Status;
LIST_ENTRY* le;
UINT64 failed_devices = 0;
BOOL locked = FALSE, remove = FALSE;
if (!(Vcb->Vpb->Flags & VPB_MOUNTED))
return STATUS_WRONG_VOLUME;
if (!ExIsResourceAcquiredExclusive(&Vcb->tree_lock)) {
ExAcquireResourceExclusiveLite(&Vcb->tree_lock, TRUE);
locked = TRUE;
}
if (Vcb->removing) {
if (locked) ExReleaseResourceLite(&Vcb->tree_lock);
return STATUS_WRONG_VOLUME;
}
InterlockedIncrement(&Vcb->open_files); // so pnp_surprise_removal doesn't uninit the device while we're still using it
le = Vcb->devices.Flink;
while (le != &Vcb->devices) {
device* dev = CONTAINING_RECORD(le, device, list_entry);
Status = verify_device(Vcb, dev);
if (!NT_SUCCESS(Status)) {
failed_devices++;
if (dev->devobj && Vcb->options.allow_degraded)
dev->devobj = NULL;
}
le = le->Flink;
}
InterlockedDecrement(&Vcb->open_files);
if (Vcb->removing && Vcb->open_files == 0)
remove = TRUE;
if (locked)
ExReleaseResourceLite(&Vcb->tree_lock);
if (remove) {
uninit(Vcb, FALSE);
return Status;
}
if (failed_devices == 0 || (Vcb->options.allow_degraded && failed_devices < Vcb->superblock.num_devices)) {
Vcb->Vpb->RealDevice->Flags &= ~DO_VERIFY_VOLUME;
return STATUS_SUCCESS;
}
return Status;
}
_Dispatch_type_(IRP_MJ_FILE_SYSTEM_CONTROL)
_Function_class_(DRIVER_DISPATCH)
static NTSTATUS drv_file_system_control(_In_ PDEVICE_OBJECT DeviceObject, _In_ PIRP Irp) {
PIO_STACK_LOCATION IrpSp;
NTSTATUS Status;
device_extension* Vcb = DeviceObject->DeviceExtension;
BOOL top_level;
FsRtlEnterFileSystem();
TRACE("file system control\n");
top_level = is_top_level(Irp);
if (Vcb && Vcb->type == VCB_TYPE_VOLUME) {
Status = vol_file_system_control(DeviceObject, Irp);
goto end;
} else if (!Vcb || (Vcb->type != VCB_TYPE_FS && Vcb->type != VCB_TYPE_CONTROL)) {
Status = STATUS_INVALID_PARAMETER;
goto end;
}
Status = STATUS_NOT_IMPLEMENTED;
IrpSp = IoGetCurrentIrpStackLocation( Irp );
Irp->IoStatus.Information = 0;
switch (IrpSp->MinorFunction) {
case IRP_MN_MOUNT_VOLUME:
TRACE("IRP_MN_MOUNT_VOLUME\n");
Status = mount_vol(DeviceObject, Irp);
break;
case IRP_MN_KERNEL_CALL:
TRACE("IRP_MN_KERNEL_CALL\n");
Status = fsctl_request(DeviceObject, &Irp, IrpSp->Parameters.FileSystemControl.FsControlCode);
break;
case IRP_MN_USER_FS_REQUEST:
TRACE("IRP_MN_USER_FS_REQUEST\n");
Status = fsctl_request(DeviceObject, &Irp, IrpSp->Parameters.FileSystemControl.FsControlCode);
break;
case IRP_MN_VERIFY_VOLUME:
TRACE("IRP_MN_VERIFY_VOLUME\n");
Status = verify_volume(DeviceObject);
if (!NT_SUCCESS(Status) && Vcb->Vpb->Flags & VPB_MOUNTED) {
ExAcquireResourceExclusiveLite(&Vcb->tree_lock, TRUE);
Vcb->removing = TRUE;
ExReleaseResourceLite(&Vcb->tree_lock);
}
break;
default:
break;
}
end:
TRACE("returning %08x\n", Status);
if (Irp) {
Irp->IoStatus.Status = Status;
IoCompleteRequest(Irp, IO_NO_INCREMENT);
}
if (top_level)
IoSetTopLevelIrp(NULL);
FsRtlExitFileSystem();
return Status;
}
_Dispatch_type_(IRP_MJ_LOCK_CONTROL)
_Function_class_(DRIVER_DISPATCH)
static NTSTATUS drv_lock_control(_In_ PDEVICE_OBJECT DeviceObject, _In_ PIRP Irp) {
NTSTATUS Status;
PIO_STACK_LOCATION IrpSp = IoGetCurrentIrpStackLocation(Irp);
fcb* fcb = IrpSp->FileObject->FsContext;
device_extension* Vcb = DeviceObject->DeviceExtension;
BOOL top_level;
FsRtlEnterFileSystem();
top_level = is_top_level(Irp);
if (Vcb && Vcb->type == VCB_TYPE_VOLUME) {
Status = vol_lock_control(DeviceObject, Irp);
Irp->IoStatus.Status = Status;
IoCompleteRequest(Irp, IO_NO_INCREMENT);
goto exit;
}
TRACE("lock control\n");
Status = FsRtlProcessFileLock(&fcb->lock, Irp, NULL);
fcb->Header.IsFastIoPossible = fast_io_possible(fcb);
exit:
TRACE("returning %08x\n", Status);
if (top_level)
IoSetTopLevelIrp(NULL);
FsRtlExitFileSystem();
return Status;
}
_Dispatch_type_(IRP_MJ_SHUTDOWN)
_Function_class_(DRIVER_DISPATCH)
static NTSTATUS drv_shutdown(_In_ PDEVICE_OBJECT DeviceObject, _In_ PIRP Irp) {
NTSTATUS Status;
BOOL top_level;
device_extension* Vcb = DeviceObject->DeviceExtension;
FsRtlEnterFileSystem();
TRACE("shutdown\n");
top_level = is_top_level(Irp);
if (Vcb && Vcb->type == VCB_TYPE_VOLUME) {
Status = vol_shutdown(DeviceObject, Irp);
goto end;
}
Status = STATUS_SUCCESS;
shutting_down = TRUE;
KeSetEvent(&mountmgr_thread_event, 0, FALSE);
while (!IsListEmpty(&VcbList)) {
Vcb = CONTAINING_RECORD(VcbList.Flink, device_extension, list_entry);
TRACE("shutting down Vcb %p\n", Vcb);
uninit(Vcb, TRUE);
}
#ifdef _DEBUG
if (comfo) {
ObDereferenceObject(comfo);
comdo = NULL;
comfo = NULL;
}
#endif
end:
Irp->IoStatus.Status = Status;
Irp->IoStatus.Information = 0;
IoCompleteRequest( Irp, IO_NO_INCREMENT );
if (top_level)
IoSetTopLevelIrp(NULL);
FsRtlExitFileSystem();
return Status;
}
_Dispatch_type_(IRP_MJ_POWER)
_Function_class_(DRIVER_DISPATCH)
static NTSTATUS drv_power(_In_ PDEVICE_OBJECT DeviceObject, _In_ PIRP Irp) {
NTSTATUS Status;
device_extension* Vcb = DeviceObject->DeviceExtension;
BOOL top_level;
FsRtlEnterFileSystem();
top_level = is_top_level(Irp);
Irp->IoStatus.Information = 0;
if (Vcb && Vcb->type == VCB_TYPE_VOLUME) {
Status = vol_power(DeviceObject, Irp);
Irp->IoStatus.Status = Status;
IoCompleteRequest(Irp, IO_NO_INCREMENT);
goto exit;
} else if (Vcb && Vcb->type == VCB_TYPE_FS) {
IoSkipCurrentIrpStackLocation(Irp);
Status = IoCallDriver(Vcb->Vpb->RealDevice, Irp);
goto exit;
}
Status = STATUS_INVALID_DEVICE_REQUEST;
Irp->IoStatus.Status = Status;
IoCompleteRequest(Irp, IO_NO_INCREMENT);
exit:
if (top_level)
IoSetTopLevelIrp(NULL);
FsRtlExitFileSystem();
return Status;
}
_Dispatch_type_(IRP_MJ_SYSTEM_CONTROL)
_Function_class_(DRIVER_DISPATCH)
static NTSTATUS drv_system_control(_In_ PDEVICE_OBJECT DeviceObject, _In_ PIRP Irp) {
NTSTATUS Status;
device_extension* Vcb = DeviceObject->DeviceExtension;
BOOL top_level;
FsRtlEnterFileSystem();
top_level = is_top_level(Irp);
Irp->IoStatus.Information = 0;
if (Vcb && Vcb->type == VCB_TYPE_VOLUME) {
volume_device_extension* vde = DeviceObject->DeviceExtension;
IoSkipCurrentIrpStackLocation(Irp);
Status = IoCallDriver(vde->pdo, Irp);
goto exit;
} else if (Vcb && Vcb->type == VCB_TYPE_FS) {
IoSkipCurrentIrpStackLocation(Irp);
Status = IoCallDriver(Vcb->Vpb->RealDevice, Irp);
goto exit;
}
Status = Irp->IoStatus.Status;
IoCompleteRequest(Irp, IO_NO_INCREMENT);
exit:
if (top_level)
IoSetTopLevelIrp(NULL);
FsRtlExitFileSystem();
return Status;
}
BOOL is_file_name_valid(_In_ PUNICODE_STRING us, _In_ BOOL posix) {
ULONG i;
if (us->Length < sizeof(WCHAR))
return FALSE;
if (us->Length > 255 * sizeof(WCHAR))
return FALSE;
for (i = 0; i < us->Length / sizeof(WCHAR); i++) {
if (us->Buffer[i] == '/' || us->Buffer[i] == 0 ||
(!posix && (us->Buffer[i] == '<' || us->Buffer[i] == '>' || us->Buffer[i] == ':' || us->Buffer[i] == '"' ||
us->Buffer[i] == '|' || us->Buffer[i] == '?' || us->Buffer[i] == '*' || (us->Buffer[i] >= 1 && us->Buffer[i] <= 31))))
return FALSE;
}
if (us->Buffer[0] == '.' && (us->Length == sizeof(WCHAR) || (us->Length == 2 * sizeof(WCHAR) && us->Buffer[1] == '.')))
return FALSE;
return TRUE;
}
void chunk_lock_range(_In_ device_extension* Vcb, _In_ chunk* c, _In_ UINT64 start, _In_ UINT64 length) {
LIST_ENTRY* le;
BOOL locked;
range_lock* rl;
rl = ExAllocateFromNPagedLookasideList(&Vcb->range_lock_lookaside);
if (!rl) {
ERR("out of memory\n");
return;
}
rl->start = start;
rl->length = length;
rl->thread = PsGetCurrentThread();
while (TRUE) {
locked = FALSE;
ExAcquireResourceExclusiveLite(&c->range_locks_lock, TRUE);
le = c->range_locks.Flink;
while (le != &c->range_locks) {
range_lock* rl2 = CONTAINING_RECORD(le, range_lock, list_entry);
if (rl2->start < start + length && rl2->start + rl2->length > start && rl2->thread != PsGetCurrentThread()) {
locked = TRUE;
break;
}
le = le->Flink;
}
if (!locked) {
InsertTailList(&c->range_locks, &rl->list_entry);
ExReleaseResourceLite(&c->range_locks_lock);
return;
}
KeClearEvent(&c->range_locks_event);
ExReleaseResourceLite(&c->range_locks_lock);
KeWaitForSingleObject(&c->range_locks_event, UserRequest, KernelMode, FALSE, NULL);
}
}
void chunk_unlock_range(_In_ device_extension* Vcb, _In_ chunk* c, _In_ UINT64 start, _In_ UINT64 length) {
LIST_ENTRY* le;
ExAcquireResourceExclusiveLite(&c->range_locks_lock, TRUE);
le = c->range_locks.Flink;
while (le != &c->range_locks) {
range_lock* rl = CONTAINING_RECORD(le, range_lock, list_entry);
if (rl->start == start && rl->length == length) {
RemoveEntryList(&rl->list_entry);
ExFreeToNPagedLookasideList(&Vcb->range_lock_lookaside, rl);
break;
}
le = le->Flink;
}
KeSetEvent(&c->range_locks_event, 0, FALSE);
ExReleaseResourceLite(&c->range_locks_lock);
}
void log_device_error(_In_ device_extension* Vcb, _Inout_ device* dev, _In_ int error) {
dev->stats[error]++;
dev->stats_changed = TRUE;
Vcb->stats_changed = TRUE;
}
#ifdef _DEBUG
_Function_class_(KSTART_ROUTINE)
static void serial_thread(void* context) {
LARGE_INTEGER due_time;
KTIMER timer;
UNUSED(context);
KeInitializeTimer(&timer);
due_time.QuadPart = (UINT64)-10000000;
KeSetTimer(&timer, due_time, NULL);
while (TRUE) {
KeWaitForSingleObject(&timer, Executive, KernelMode, FALSE, NULL);
init_serial(FALSE);
if (comdo)
break;
KeSetTimer(&timer, due_time, NULL);
}
KeCancelTimer(&timer);
PsTerminateSystemThread(STATUS_SUCCESS);
serial_thread_handle = NULL;
}
static void init_serial(BOOL first_time) {
NTSTATUS Status;
Status = IoGetDeviceObjectPointer(&log_device, FILE_WRITE_DATA, &comfo, &comdo);
if (!NT_SUCCESS(Status)) {
ERR("IoGetDeviceObjectPointer returned %08x\n", Status);
if (first_time) {
NTSTATUS Status;
Status = PsCreateSystemThread(&serial_thread_handle, 0, NULL, NULL, NULL, serial_thread, NULL);
if (!NT_SUCCESS(Status)) {
ERR("PsCreateSystemThread returned %08x\n", Status);
return;
}
}
}
}
#endif
#ifndef __REACTOS__
static void check_cpu() {
unsigned int cpuInfo[4];
#ifndef _MSC_VER
__get_cpuid(1, &cpuInfo[0], &cpuInfo[1], &cpuInfo[2], &cpuInfo[3]);
have_sse42 = cpuInfo[2] & bit_SSE4_2;
have_sse2 = cpuInfo[3] & bit_SSE2;
#else
__cpuid(cpuInfo, 1);
have_sse42 = cpuInfo[2] & (1 << 20);
have_sse2 = cpuInfo[3] & (1 << 26);
#endif
if (have_sse42)
TRACE("SSE4.2 is supported\n");
else
TRACE("SSE4.2 not supported\n");
if (have_sse2)
TRACE("SSE2 is supported\n");
else
TRACE("SSE2 is not supported\n");
}
#endif
#ifdef _DEBUG
static void init_logging() {
ExAcquireResourceExclusiveLite(&log_lock, TRUE);
if (log_device.Length > 0)
init_serial(TRUE);
else if (log_file.Length > 0) {
NTSTATUS Status;
OBJECT_ATTRIBUTES oa;
IO_STATUS_BLOCK iosb;
char* dateline;
LARGE_INTEGER time;
TIME_FIELDS tf;
InitializeObjectAttributes(&oa, &log_file, OBJ_CASE_INSENSITIVE | OBJ_KERNEL_HANDLE, NULL, NULL);
Status = ZwCreateFile(&log_handle, FILE_WRITE_DATA, &oa, &iosb, NULL, FILE_ATTRIBUTE_NORMAL, FILE_SHARE_READ,
FILE_OPEN_IF, FILE_NON_DIRECTORY_FILE | FILE_WRITE_THROUGH | FILE_SYNCHRONOUS_IO_ALERT, NULL, 0);
if (!NT_SUCCESS(Status)) {
ERR("ZwCreateFile returned %08x\n", Status);
goto end;
}
if (iosb.Information == FILE_OPENED) { // already exists
FILE_STANDARD_INFORMATION fsi;
FILE_POSITION_INFORMATION fpi;
static char delim[] = "\n---\n";
// move to end of file
Status = ZwQueryInformationFile(log_handle, &iosb, &fsi, sizeof(FILE_STANDARD_INFORMATION), FileStandardInformation);
if (!NT_SUCCESS(Status)) {
ERR("ZwQueryInformationFile returned %08x\n", Status);
goto end;
}
fpi.CurrentByteOffset = fsi.EndOfFile;
Status = ZwSetInformationFile(log_handle, &iosb, &fpi, sizeof(FILE_POSITION_INFORMATION), FilePositionInformation);
if (!NT_SUCCESS(Status)) {
ERR("ZwSetInformationFile returned %08x\n", Status);
goto end;
}
Status = ZwWriteFile(log_handle, NULL, NULL, NULL, &iosb, delim, (ULONG)strlen(delim), NULL, NULL);
if (!NT_SUCCESS(Status)) {
ERR("ZwWriteFile returned %08x\n", Status);
goto end;
}
}
dateline = ExAllocatePoolWithTag(PagedPool, 256, ALLOC_TAG);
if (!dateline) {
ERR("out of memory\n");
goto end;
}
KeQuerySystemTime(&time);
RtlTimeToTimeFields(&time, &tf);
sprintf(dateline, "Starting logging at %04i-%02i-%02i %02i:%02i:%02i\n", tf.Year, tf.Month, tf.Day, tf.Hour, tf.Minute, tf.Second);
Status = ZwWriteFile(log_handle, NULL, NULL, NULL, &iosb, dateline, (ULONG)strlen(dateline), NULL, NULL);
ExFreePool(dateline);
if (!NT_SUCCESS(Status)) {
ERR("ZwWriteFile returned %08x\n", Status);
goto end;
}
}
end:
ExReleaseResourceLite(&log_lock);
}
#endif
_Function_class_(KSTART_ROUTINE)
#ifdef __REACTOS__
static void NTAPI degraded_wait_thread(_In_ void* context) {
#else
static void degraded_wait_thread(_In_ void* context) {
#endif
KTIMER timer;
LARGE_INTEGER delay;
UNUSED(context);
KeInitializeTimer(&timer);
delay.QuadPart = -30000000; // wait three seconds
KeSetTimer(&timer, delay, NULL);
KeWaitForSingleObject(&timer, Executive, KernelMode, FALSE, NULL);
TRACE("timer expired\n");
degraded_wait = FALSE;
ZwClose(degraded_wait_handle);
degraded_wait_handle = NULL;
PsTerminateSystemThread(STATUS_SUCCESS);
}
#ifdef __REACTOS__
NTSTATUS NTAPI AddDevice(PDRIVER_OBJECT DriverObject, PDEVICE_OBJECT PhysicalDeviceObject) {
#else
NTSTATUS AddDevice(PDRIVER_OBJECT DriverObject, PDEVICE_OBJECT PhysicalDeviceObject) {
#endif
LIST_ENTRY* le;
NTSTATUS Status;
UNICODE_STRING volname;
ULONG i, j;
pdo_device_extension* pdode = NULL;
PDEVICE_OBJECT voldev;
volume_device_extension* vde;
TRACE("(%p, %p)\n", DriverObject, PhysicalDeviceObject);
ExAcquireResourceSharedLite(&pdo_list_lock, TRUE);
le = pdo_list.Flink;
while (le != &pdo_list) {
pdo_device_extension* pdode2 = CONTAINING_RECORD(le, pdo_device_extension, list_entry);
if (pdode2->pdo == PhysicalDeviceObject) {
pdode = pdode2;
break;
}
le = le->Flink;
}
if (!pdode) {
WARN("unrecognized PDO %p\n", PhysicalDeviceObject);
Status = STATUS_NOT_SUPPORTED;
goto end;
}
ExAcquireResourceSharedLite(&pdode->child_lock, TRUE);
volname.Length = volname.MaximumLength = (USHORT)((wcslen(BTRFS_VOLUME_PREFIX) + 36 + 1) * sizeof(WCHAR));
volname.Buffer = ExAllocatePoolWithTag(PagedPool, volname.MaximumLength, ALLOC_TAG); // FIXME - when do we free this?
if (!volname.Buffer) {
ERR("out of memory\n");
Status = STATUS_INSUFFICIENT_RESOURCES;
goto end2;
}
RtlCopyMemory(volname.Buffer, BTRFS_VOLUME_PREFIX, wcslen(BTRFS_VOLUME_PREFIX) * sizeof(WCHAR));
j = (ULONG)wcslen(BTRFS_VOLUME_PREFIX);
for (i = 0; i < 16; i++) {
volname.Buffer[j] = hex_digit(pdode->uuid.uuid[i] >> 4); j++;
volname.Buffer[j] = hex_digit(pdode->uuid.uuid[i] & 0xf); j++;
if (i == 3 || i == 5 || i == 7 || i == 9) {
volname.Buffer[j] = '-';
j++;
}
}
volname.Buffer[j] = '}';
Status = IoCreateDevice(drvobj, sizeof(volume_device_extension), &volname, FILE_DEVICE_DISK,
RtlIsNtDdiVersionAvailable(NTDDI_WIN8) ? FILE_DEVICE_ALLOW_APPCONTAINER_TRAVERSAL : 0, FALSE, &voldev);
if (!NT_SUCCESS(Status)) {
ERR("IoCreateDevice returned %08x\n", Status);
goto end2;
}
voldev->SectorSize = PhysicalDeviceObject->SectorSize;
voldev->Flags |= DO_DIRECT_IO;
vde = voldev->DeviceExtension;
vde->type = VCB_TYPE_VOLUME;
vde->name = volname;
vde->device = voldev;
vde->mounted_device = NULL;
vde->pdo = PhysicalDeviceObject;
vde->pdode = pdode;
vde->removing = FALSE;
vde->open_count = 0;
Status = IoRegisterDeviceInterface(PhysicalDeviceObject, &GUID_DEVINTERFACE_VOLUME, NULL, &vde->bus_name);
if (!NT_SUCCESS(Status))
WARN("IoRegisterDeviceInterface returned %08x\n", Status);
vde->attached_device = IoAttachDeviceToDeviceStack(voldev, PhysicalDeviceObject);
pdode->vde = vde;
if (pdode->removable)
voldev->Characteristics |= FILE_REMOVABLE_MEDIA;
voldev->Flags &= ~DO_DEVICE_INITIALIZING;
Status = IoSetDeviceInterfaceState(&vde->bus_name, TRUE);
if (!NT_SUCCESS(Status))
WARN("IoSetDeviceInterfaceState returned %08x\n", Status);
Status = STATUS_SUCCESS;
end2:
ExReleaseResourceLite(&pdode->child_lock);
end:
ExReleaseResourceLite(&pdo_list_lock);
return Status;
}
_Function_class_(DRIVER_INITIALIZE)
#ifdef __REACTOS__
NTSTATUS NTAPI DriverEntry(_In_ PDRIVER_OBJECT DriverObject, _In_ PUNICODE_STRING RegistryPath) {
#else
NTSTATUS DriverEntry(_In_ PDRIVER_OBJECT DriverObject, _In_ PUNICODE_STRING RegistryPath) {
#endif
NTSTATUS Status;
PDEVICE_OBJECT DeviceObject;
UNICODE_STRING device_nameW;
UNICODE_STRING dosdevice_nameW;
control_device_extension* cde;
HANDLE regh;
OBJECT_ATTRIBUTES oa;
ULONG dispos;
InitializeListHead(&uid_map_list);
InitializeListHead(&gid_map_list);
#ifdef _DEBUG
ExInitializeResourceLite(&log_lock);
#endif
ExInitializeResourceLite(&mapping_lock);
log_device.Buffer = NULL;
log_device.Length = log_device.MaximumLength = 0;
log_file.Buffer = NULL;
log_file.Length = log_file.MaximumLength = 0;
registry_path.Length = registry_path.MaximumLength = RegistryPath->Length;
registry_path.Buffer = ExAllocatePoolWithTag(PagedPool, registry_path.Length, ALLOC_TAG);
if (!registry_path.Buffer) {
ERR("out of memory\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
RtlCopyMemory(registry_path.Buffer, RegistryPath->Buffer, registry_path.Length);
read_registry(&registry_path, FALSE);
#ifdef _DEBUG
if (debug_log_level > 0)
init_logging();
log_started = TRUE;
#endif
TRACE("DriverEntry\n");
#ifndef __REACTOS__
check_cpu();
#endif
if (RtlIsNtDdiVersionAvailable(NTDDI_WIN8)) {
UNICODE_STRING name;
tPsIsDiskCountersEnabled fPsIsDiskCountersEnabled;
RtlInitUnicodeString(&name, L"PsIsDiskCountersEnabled");
fPsIsDiskCountersEnabled = (tPsIsDiskCountersEnabled)MmGetSystemRoutineAddress(&name);
if (fPsIsDiskCountersEnabled) {
diskacc = fPsIsDiskCountersEnabled();
RtlInitUnicodeString(&name, L"PsUpdateDiskCounters");
fPsUpdateDiskCounters = (tPsUpdateDiskCounters)MmGetSystemRoutineAddress(&name);
if (!fPsUpdateDiskCounters)
diskacc = FALSE;
RtlInitUnicodeString(&name, L"FsRtlUpdateDiskCounters");
fFsRtlUpdateDiskCounters = (tFsRtlUpdateDiskCounters)MmGetSystemRoutineAddress(&name);
}
RtlInitUnicodeString(&name, L"CcCopyReadEx");
fCcCopyReadEx = (tCcCopyReadEx)MmGetSystemRoutineAddress(&name);
RtlInitUnicodeString(&name, L"CcCopyWriteEx");
fCcCopyWriteEx = (tCcCopyWriteEx)MmGetSystemRoutineAddress(&name);
RtlInitUnicodeString(&name, L"CcSetAdditionalCacheAttributesEx");
fCcSetAdditionalCacheAttributesEx = (tCcSetAdditionalCacheAttributesEx)MmGetSystemRoutineAddress(&name);
} else {
fPsUpdateDiskCounters = NULL;
fCcCopyReadEx = NULL;
fCcCopyWriteEx = NULL;
fCcSetAdditionalCacheAttributesEx = NULL;
fFsRtlUpdateDiskCounters = NULL;
}
drvobj = DriverObject;
DriverObject->DriverUnload = DriverUnload;
DriverObject->DriverExtension->AddDevice = AddDevice;
DriverObject->MajorFunction[IRP_MJ_CREATE] = (PDRIVER_DISPATCH)drv_create;
DriverObject->MajorFunction[IRP_MJ_CLOSE] = (PDRIVER_DISPATCH)drv_close;
DriverObject->MajorFunction[IRP_MJ_READ] = (PDRIVER_DISPATCH)drv_read;
DriverObject->MajorFunction[IRP_MJ_WRITE] = (PDRIVER_DISPATCH)drv_write;
DriverObject->MajorFunction[IRP_MJ_QUERY_INFORMATION] = (PDRIVER_DISPATCH)drv_query_information;
DriverObject->MajorFunction[IRP_MJ_SET_INFORMATION] = (PDRIVER_DISPATCH)drv_set_information;
DriverObject->MajorFunction[IRP_MJ_QUERY_EA] = (PDRIVER_DISPATCH)drv_query_ea;
DriverObject->MajorFunction[IRP_MJ_SET_EA] = (PDRIVER_DISPATCH)drv_set_ea;
DriverObject->MajorFunction[IRP_MJ_FLUSH_BUFFERS] = (PDRIVER_DISPATCH)drv_flush_buffers;
DriverObject->MajorFunction[IRP_MJ_QUERY_VOLUME_INFORMATION] = (PDRIVER_DISPATCH)drv_query_volume_information;
DriverObject->MajorFunction[IRP_MJ_SET_VOLUME_INFORMATION] = (PDRIVER_DISPATCH)drv_set_volume_information;
DriverObject->MajorFunction[IRP_MJ_DIRECTORY_CONTROL] = (PDRIVER_DISPATCH)drv_directory_control;
DriverObject->MajorFunction[IRP_MJ_FILE_SYSTEM_CONTROL] = (PDRIVER_DISPATCH)drv_file_system_control;
DriverObject->MajorFunction[IRP_MJ_DEVICE_CONTROL] = (PDRIVER_DISPATCH)drv_device_control;
DriverObject->MajorFunction[IRP_MJ_SHUTDOWN] = (PDRIVER_DISPATCH)drv_shutdown;
DriverObject->MajorFunction[IRP_MJ_LOCK_CONTROL] = (PDRIVER_DISPATCH)drv_lock_control;
DriverObject->MajorFunction[IRP_MJ_CLEANUP] = (PDRIVER_DISPATCH)drv_cleanup;
DriverObject->MajorFunction[IRP_MJ_QUERY_SECURITY] = (PDRIVER_DISPATCH)drv_query_security;
DriverObject->MajorFunction[IRP_MJ_SET_SECURITY] = (PDRIVER_DISPATCH)drv_set_security;
DriverObject->MajorFunction[IRP_MJ_POWER] = (PDRIVER_DISPATCH)drv_power;
DriverObject->MajorFunction[IRP_MJ_SYSTEM_CONTROL] = (PDRIVER_DISPATCH)drv_system_control;
DriverObject->MajorFunction[IRP_MJ_PNP] = (PDRIVER_DISPATCH)drv_pnp;
init_fast_io_dispatch(&DriverObject->FastIoDispatch);
device_nameW.Buffer = device_name;
device_nameW.Length = device_nameW.MaximumLength = (USHORT)wcslen(device_name) * sizeof(WCHAR);
dosdevice_nameW.Buffer = dosdevice_name;
dosdevice_nameW.Length = dosdevice_nameW.MaximumLength = (USHORT)wcslen(dosdevice_name) * sizeof(WCHAR);
Status = IoCreateDevice(DriverObject, sizeof(control_device_extension), &device_nameW, FILE_DEVICE_DISK_FILE_SYSTEM,
FILE_DEVICE_SECURE_OPEN, FALSE, &DeviceObject);
if (!NT_SUCCESS(Status)) {
ERR("IoCreateDevice returned %08x\n", Status);
return Status;
}
master_devobj = DeviceObject;
cde = (control_device_extension*)master_devobj->DeviceExtension;
RtlZeroMemory(cde, sizeof(control_device_extension));
cde->type = VCB_TYPE_CONTROL;
DeviceObject->Flags &= ~DO_DEVICE_INITIALIZING;
Status = IoCreateSymbolicLink(&dosdevice_nameW, &device_nameW);
if (!NT_SUCCESS(Status)) {
ERR("IoCreateSymbolicLink returned %08x\n", Status);
return Status;
}
Status = init_cache();
if (!NT_SUCCESS(Status)) {
ERR("init_cache returned %08x\n", Status);
return Status;
}
InitializeListHead(&VcbList);
ExInitializeResourceLite(&global_loading_lock);
ExInitializeResourceLite(&pdo_list_lock);
InitializeListHead(&pdo_list);
InitializeObjectAttributes(&oa, RegistryPath, OBJ_CASE_INSENSITIVE | OBJ_KERNEL_HANDLE, NULL, NULL);
Status = ZwCreateKey(&regh, KEY_QUERY_VALUE | KEY_ENUMERATE_SUB_KEYS | KEY_NOTIFY, &oa, 0, NULL, REG_OPTION_NON_VOLATILE, &dispos);
if (!NT_SUCCESS(Status)) {
ERR("ZwCreateKey returned %08x\n", Status);
return Status;
}
watch_registry(regh);
Status = IoReportDetectedDevice(drvobj, InterfaceTypeUndefined, 0xFFFFFFFF, 0xFFFFFFFF,
NULL, NULL, 0, &cde->buspdo);
if (!NT_SUCCESS(Status)) {
ERR("IoReportDetectedDevice returned %08x\n", Status);
return Status;
}
Status = IoRegisterDeviceInterface(cde->buspdo, &BtrfsBusInterface, NULL, &cde->bus_name);
if (!NT_SUCCESS(Status))
WARN("IoRegisterDeviceInterface returned %08x\n", Status);
cde->attached_device = IoAttachDeviceToDeviceStack(DeviceObject, cde->buspdo);
Status = IoSetDeviceInterfaceState(&cde->bus_name, TRUE);
if (!NT_SUCCESS(Status))
WARN("IoSetDeviceInterfaceState returned %08x\n", Status);
DeviceObject->Flags &= ~DO_DEVICE_INITIALIZING;
IoInvalidateDeviceRelations(cde->buspdo, BusRelations);
Status = PsCreateSystemThread(&degraded_wait_handle, 0, NULL, NULL, NULL, degraded_wait_thread, NULL);
if (!NT_SUCCESS(Status))
WARN("PsCreateSystemThread returned %08x\n", Status);
Status = IoRegisterPlugPlayNotification(EventCategoryDeviceInterfaceChange, PNPNOTIFY_DEVICE_INTERFACE_INCLUDE_EXISTING_INTERFACES,
(PVOID)&GUID_DEVINTERFACE_VOLUME, DriverObject, volume_notification, DriverObject, &notification_entry2);
if (!NT_SUCCESS(Status))
ERR("IoRegisterPlugPlayNotification returned %08x\n", Status);
Status = IoRegisterPlugPlayNotification(EventCategoryDeviceInterfaceChange, PNPNOTIFY_DEVICE_INTERFACE_INCLUDE_EXISTING_INTERFACES,
(PVOID)&GUID_DEVINTERFACE_HIDDEN_VOLUME, DriverObject, volume_notification, DriverObject, &notification_entry3);
if (!NT_SUCCESS(Status))
ERR("IoRegisterPlugPlayNotification returned %08x\n", Status);
Status = IoRegisterPlugPlayNotification(EventCategoryDeviceInterfaceChange, PNPNOTIFY_DEVICE_INTERFACE_INCLUDE_EXISTING_INTERFACES,
(PVOID)&GUID_DEVINTERFACE_DISK, DriverObject, pnp_notification, DriverObject, &notification_entry);
if (!NT_SUCCESS(Status))
ERR("IoRegisterPlugPlayNotification returned %08x\n", Status);
finished_probing = TRUE;
KeInitializeEvent(&mountmgr_thread_event, NotificationEvent, FALSE);
#ifndef __REACTOS__
Status = PsCreateSystemThread(&mountmgr_thread_handle, 0, NULL, NULL, NULL, mountmgr_thread, NULL);
if (!NT_SUCCESS(Status))
WARN("PsCreateSystemThread returned %08x\n", Status);
#endif
IoRegisterFileSystem(DeviceObject);
return STATUS_SUCCESS;
}
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