reactos/ntoskrnl/config/cmboot.c

823 lines
28 KiB
C

/*
* PROJECT: ReactOS Kernel
* LICENSE: BSD - See COPYING.ARM in the top level directory
* FILE: ntoskrnl/config/cmboot.c
* PURPOSE: Configuration Manager - Boot Initialization
* PROGRAMMERS: ReactOS Portable Systems Group
* Alex Ionescu (alex.ionescu@reactos.org)
*/
/* INCLUDES *******************************************************************/
#include "ntoskrnl.h"
#define NDEBUG
#include "debug.h"
/* GLOBALS ********************************************************************/
extern ULONG InitSafeBootMode;
/* FUNCTIONS ******************************************************************/
HCELL_INDEX
NTAPI
INIT_FUNCTION
CmpFindControlSet(IN PHHIVE SystemHive,
IN HCELL_INDEX RootCell,
IN PUNICODE_STRING SelectKeyName,
OUT PBOOLEAN AutoSelect)
{
UNICODE_STRING KeyName;
PCM_KEY_NODE Node;
HCELL_INDEX SelectCell, AutoSelectCell, SelectValueCell, ControlSetCell;
HCELL_INDEX CurrentValueCell;
PCM_KEY_VALUE KeyValue;
ULONG Length;
PULONG ControlSetId;
ANSI_STRING ControlSetAnsiName;
CHAR Buffer[128];
WCHAR WideBuffer[128];
NTSTATUS Status;
PULONG CurrentData;
/* Sanity check */
ASSERT(SystemHive->ReleaseCellRoutine == NULL);
/* Get the Select subkey */
RtlInitUnicodeString(&KeyName, L"select");
Node = (PCM_KEY_NODE)HvGetCell(SystemHive, RootCell);
if (!Node) return HCELL_NIL;
SelectCell = CmpFindSubKeyByName(SystemHive, Node, &KeyName);
if (SelectCell == HCELL_NIL) return SelectCell;
/* Get AutoSelect value */
RtlInitUnicodeString(&KeyName, L"AutoSelect");
Node = (PCM_KEY_NODE)HvGetCell(SystemHive, SelectCell);
if (!Node) return HCELL_NIL;
AutoSelectCell = CmpFindValueByName(SystemHive, Node, &KeyName);
if (AutoSelectCell == HCELL_NIL)
{
/* Assume TRUE if the value is missing. */
*AutoSelect = TRUE;
}
else
{
/* Read the value */
KeyValue = (PCM_KEY_VALUE)HvGetCell(SystemHive, AutoSelectCell);
if (KeyValue == NULL) return HCELL_NIL;
/* Convert it to a boolean */
*AutoSelect = *(PBOOLEAN)CmpValueToData(SystemHive, KeyValue, &Length);
}
/* Now find the control set being looked up */
Node = (PCM_KEY_NODE)HvGetCell(SystemHive, SelectCell);
if (!Node) return HCELL_NIL;
SelectValueCell = CmpFindValueByName(SystemHive, Node, SelectKeyName);
if (SelectValueCell == HCELL_NIL) return SelectValueCell;
/* Read the value (corresponding to the CCS ID) */
KeyValue = (PCM_KEY_VALUE)HvGetCell(SystemHive, SelectValueCell);
if (!KeyValue) return HCELL_NIL;
if (KeyValue->Type != REG_DWORD) return HCELL_NIL;
ControlSetId = (PULONG)CmpValueToData(SystemHive, KeyValue, &Length);
/* Now build an Ansi String for the CCS's Name */
sprintf(Buffer, "ControlSet%03lu", *ControlSetId);
ControlSetAnsiName.Length = (USHORT)strlen(Buffer);
ControlSetAnsiName.MaximumLength = (USHORT)strlen(Buffer);
ControlSetAnsiName.Buffer = Buffer;
/* And convert it to Unicode... */
KeyName.MaximumLength = 256;
KeyName.Buffer = WideBuffer;
Status = RtlAnsiStringToUnicodeString(&KeyName,
&ControlSetAnsiName,
FALSE);
if (!NT_SUCCESS(Status)) return HCELL_NIL;
/* Now open it */
Node = (PCM_KEY_NODE)HvGetCell(SystemHive, RootCell);
if (!Node) return HCELL_NIL;
ControlSetCell = CmpFindSubKeyByName(SystemHive, Node, &KeyName);
if (ControlSetCell == HCELL_NIL) return ControlSetCell;
/* Get the value of the "Current" CCS */
RtlInitUnicodeString(&KeyName, L"Current");
Node = (PCM_KEY_NODE)HvGetCell(SystemHive, SelectCell);
if (!Node) return HCELL_NIL;
CurrentValueCell = CmpFindValueByName(SystemHive, Node, &KeyName);
/* Make sure it exists */
if (CurrentValueCell != HCELL_NIL)
{
/* Get the current value and make sure its a ULONG */
KeyValue = (PCM_KEY_VALUE)HvGetCell(SystemHive, CurrentValueCell);
if (!KeyValue) return HCELL_NIL;
if (KeyValue->Type == REG_DWORD)
{
/* Get the data and update it */
CurrentData = (PULONG)CmpValueToData(SystemHive,
KeyValue,
&Length);
if (!CurrentData) return HCELL_NIL;
*CurrentData = *ControlSetId;
}
}
/* Return the CCS Cell */
return ControlSetCell;
}
ULONG
NTAPI
INIT_FUNCTION
CmpFindTagIndex(IN PHHIVE Hive,
IN HCELL_INDEX TagCell,
IN HCELL_INDEX GroupOrderCell,
IN PUNICODE_STRING GroupName)
{
PCM_KEY_VALUE TagValue, Value;
HCELL_INDEX OrderCell;
PULONG TagOrder, DriverTag;
ULONG CurrentTag, Length;
PCM_KEY_NODE Node;
BOOLEAN BufferAllocated;
ASSERT(Hive->ReleaseCellRoutine == NULL);
/* Get the tag */
Value = HvGetCell(Hive, TagCell);
ASSERT(Value);
DriverTag = (PULONG)CmpValueToData(Hive, Value, &Length);
ASSERT(DriverTag);
/* Get the order array */
Node = HvGetCell(Hive, GroupOrderCell);
ASSERT(Node);
OrderCell = CmpFindValueByName(Hive, Node, GroupName);
if (OrderCell == HCELL_NIL) return -2;
/* And read it */
TagValue = HvGetCell(Hive, OrderCell);
CmpGetValueData(Hive, TagValue, &Length, (PVOID*)&TagOrder, &BufferAllocated, &OrderCell);
ASSERT(TagOrder);
/* Parse each tag */
for (CurrentTag = 1; CurrentTag <= TagOrder[0]; CurrentTag++)
{
/* Find a match */
if (TagOrder[CurrentTag] == *DriverTag)
{
/* Found it -- return the tag */
if (BufferAllocated) ExFreePool(TagOrder);
return CurrentTag;
}
}
/* No matches, so assume next to last ordering */
if (BufferAllocated) ExFreePool(TagOrder);
return -2;
}
BOOLEAN
NTAPI
INIT_FUNCTION
CmpAddDriverToList(IN PHHIVE Hive,
IN HCELL_INDEX DriverCell,
IN HCELL_INDEX GroupOrderCell,
IN PUNICODE_STRING RegistryPath,
IN PLIST_ENTRY BootDriverListHead)
{
PBOOT_DRIVER_NODE DriverNode;
PBOOT_DRIVER_LIST_ENTRY DriverEntry;
PCM_KEY_NODE Node;
ULONG Length;
USHORT NameLength;
HCELL_INDEX ValueCell, TagCell; PCM_KEY_VALUE Value;
PUNICODE_STRING FileName, RegistryString;
UNICODE_STRING UnicodeString;
PULONG ErrorControl;
PWCHAR Buffer;
ASSERT(Hive->ReleaseCellRoutine == NULL);
/* Allocate a driver node and initialize it */
DriverNode = CmpAllocate(sizeof(BOOT_DRIVER_NODE), FALSE, TAG_CM);
if (!DriverNode) return FALSE;
DriverEntry = &DriverNode->ListEntry;
DriverEntry->RegistryPath.Buffer = NULL;
DriverEntry->FilePath.Buffer = NULL;
/* Get the driver cell */
Node = HvGetCell(Hive, DriverCell);
ASSERT(Node);
/* Get the name from the cell */
DriverNode->Name.Length = Node->Flags & KEY_COMP_NAME ?
CmpCompressedNameSize(Node->Name, Node->NameLength) :
Node->NameLength;
DriverNode->Name.MaximumLength = DriverNode->Name.Length;
NameLength = DriverNode->Name.Length;
/* Now allocate the buffer for it and copy the name */
DriverNode->Name.Buffer = CmpAllocate(NameLength, FALSE, TAG_CM);
if (!DriverNode->Name.Buffer) return FALSE;
if (Node->Flags & KEY_COMP_NAME)
{
/* Compressed name */
CmpCopyCompressedName(DriverNode->Name.Buffer,
DriverNode->Name.Length,
Node->Name,
Node->NameLength);
}
else
{
/* Normal name */
RtlCopyMemory(DriverNode->Name.Buffer, Node->Name, Node->NameLength);
}
/* Now find the image path */
RtlInitUnicodeString(&UnicodeString, L"ImagePath");
ValueCell = CmpFindValueByName(Hive, Node, &UnicodeString);
if (ValueCell == HCELL_NIL)
{
/* Couldn't find it, so assume the drivers path */
Length = sizeof(L"System32\\Drivers\\") + NameLength + sizeof(L".sys");
/* Allocate the path name */
FileName = &DriverEntry->FilePath;
FileName->Length = 0;
FileName->MaximumLength = (USHORT)Length;
FileName->Buffer = CmpAllocate(Length, FALSE,TAG_CM);
if (!FileName->Buffer) return FALSE;
/* Write the path name */
RtlAppendUnicodeToString(FileName, L"System32\\Drivers\\");
RtlAppendUnicodeStringToString(FileName, &DriverNode->Name);
RtlAppendUnicodeToString(FileName, L".sys");
}
else
{
/* Path name exists, so grab it */
Value = HvGetCell(Hive, ValueCell);
ASSERT(Value);
/* Allocate and setup the path name */
FileName = &DriverEntry->FilePath;
Buffer = (PWCHAR)CmpValueToData(Hive, Value, &Length);
FileName->MaximumLength = FileName->Length = (USHORT)Length;
FileName->Buffer = CmpAllocate(Length, FALSE, TAG_CM);
/* Transfer the data */
if (!(FileName->Buffer) || !(Buffer)) return FALSE;
RtlCopyMemory(FileName->Buffer, Buffer, Length);
}
/* Now build the registry path */
RegistryString = &DriverEntry->RegistryPath;
RegistryString->Length = 0;
RegistryString->MaximumLength = RegistryPath->Length + NameLength;
RegistryString->Buffer = CmpAllocate(RegistryString->MaximumLength, FALSE, TAG_CM);
if (!RegistryString->Buffer) return FALSE;
/* Add the driver name to it */
RtlAppendUnicodeStringToString(RegistryString, RegistryPath);
RtlAppendUnicodeStringToString(RegistryString, &DriverNode->Name);
/* The entry is done, add it */
InsertHeadList(BootDriverListHead, &DriverEntry->Link);
/* Now find error control settings */
RtlInitUnicodeString(&UnicodeString, L"ErrorControl");
ValueCell = CmpFindValueByName(Hive, Node, &UnicodeString);
if (ValueCell == HCELL_NIL)
{
/* Couldn't find it, so assume default */
DriverNode->ErrorControl = NormalError;
}
else
{
/* Otherwise, read whatever the data says */
Value = HvGetCell(Hive, ValueCell);
ASSERT(Value);
ErrorControl = (PULONG)CmpValueToData(Hive, Value, &Length);
ASSERT(ErrorControl);
DriverNode->ErrorControl = *ErrorControl;
}
/* Next, get the group cell */
RtlInitUnicodeString(&UnicodeString, L"group");
ValueCell = CmpFindValueByName(Hive, Node, &UnicodeString);
if (ValueCell == HCELL_NIL)
{
/* Couldn't find, so set an empty string */
RtlInitEmptyUnicodeString(&DriverNode->Group, NULL, 0);
}
else
{
/* Found it, read the group value */
Value = HvGetCell(Hive, ValueCell);
ASSERT(Value);
/* Copy it into the node */
DriverNode->Group.Buffer = (PWCHAR)CmpValueToData(Hive, Value, &Length);
if (!DriverNode->Group.Buffer) return FALSE;
DriverNode->Group.Length = (USHORT)Length - sizeof(UNICODE_NULL);
DriverNode->Group.MaximumLength = DriverNode->Group.Length;
}
/* Finally, find the tag */
RtlInitUnicodeString(&UnicodeString, L"Tag");
TagCell = CmpFindValueByName(Hive, Node, &UnicodeString);
if (TagCell == HCELL_NIL)
{
/* No tag, so load last */
DriverNode->Tag = -1;
}
else
{
/* Otherwise, decode it based on tag order */
DriverNode->Tag = CmpFindTagIndex(Hive,
TagCell,
GroupOrderCell,
&DriverNode->Group);
}
/* All done! */
return TRUE;
}
BOOLEAN
NTAPI
INIT_FUNCTION
CmpIsLoadType(IN PHHIVE Hive,
IN HCELL_INDEX Cell,
IN SERVICE_LOAD_TYPE LoadType)
{
PCM_KEY_NODE Node;
HCELL_INDEX ValueCell;
UNICODE_STRING ValueString = RTL_CONSTANT_STRING(L"Start");
PCM_KEY_VALUE Value;
ULONG Length;
PLONG Data;
ASSERT(Hive->ReleaseCellRoutine == NULL);
/* Open the start cell */
Node = HvGetCell(Hive, Cell);
ASSERT(Node);
ValueCell = CmpFindValueByName(Hive, Node, &ValueString);
if (ValueCell == HCELL_NIL) return FALSE;
/* Read the start value */
Value = HvGetCell(Hive, ValueCell);
ASSERT(Value);
Data = (PLONG)CmpValueToData(Hive, Value, &Length);
ASSERT(Data);
/* Return if the type matches */
return (*Data == LoadType);
}
BOOLEAN
NTAPI
INIT_FUNCTION
CmpFindDrivers(IN PHHIVE Hive,
IN HCELL_INDEX ControlSet,
IN SERVICE_LOAD_TYPE LoadType,
IN PWCHAR BootFileSystem OPTIONAL,
IN PLIST_ENTRY DriverListHead)
{
HCELL_INDEX ServicesCell, ControlCell, GroupOrderCell, DriverCell;
HCELL_INDEX SafeBootCell = HCELL_NIL;
UNICODE_STRING Name;
ULONG i;
WCHAR Buffer[128];
UNICODE_STRING UnicodeString, KeyPath;
PBOOT_DRIVER_NODE FsNode;
PCM_KEY_NODE ControlNode, ServicesNode, Node;
ASSERT(Hive->ReleaseCellRoutine == NULL);
/* Open the control set key */
ControlNode = HvGetCell(Hive, ControlSet);
ASSERT(ControlNode);
/* Get services cell */
RtlInitUnicodeString(&Name, L"Services");
ServicesCell = CmpFindSubKeyByName(Hive, ControlNode, &Name);
if (ServicesCell == HCELL_NIL) return FALSE;
/* Open services key */
ServicesNode = HvGetCell(Hive, ServicesCell);
ASSERT(ServicesNode);
/* Get control cell */
RtlInitUnicodeString(&Name, L"Control");
ControlCell = CmpFindSubKeyByName(Hive, ControlNode, &Name);
if (ControlCell == HCELL_NIL) return FALSE;
/* Get the group order cell and read it */
RtlInitUnicodeString(&Name, L"GroupOrderList");
Node = HvGetCell(Hive, ControlCell);
ASSERT(Node);
GroupOrderCell = CmpFindSubKeyByName(Hive, Node, &Name);
if (GroupOrderCell == HCELL_NIL) return FALSE;
/* Get Safe Boot cell */
if(InitSafeBootMode)
{
/* Open the Safe Boot key */
RtlInitUnicodeString(&Name, L"SafeBoot");
Node = HvGetCell(Hive, ControlCell);
ASSERT(Node);
SafeBootCell = CmpFindSubKeyByName(Hive, Node, &Name);
if (SafeBootCell == HCELL_NIL) return FALSE;
/* Open the correct start key (depending on the mode) */
Node = HvGetCell(Hive, SafeBootCell);
ASSERT(Node);
switch(InitSafeBootMode)
{
/* NOTE: Assumes MINIMAL (1) and DSREPAIR (3) load same items */
case 1:
case 3: RtlInitUnicodeString(&Name, L"Minimal"); break;
case 2: RtlInitUnicodeString(&Name, L"Network"); break;
default: return FALSE;
}
SafeBootCell = CmpFindSubKeyByName(Hive, Node, &Name);
if(SafeBootCell == HCELL_NIL) return FALSE;
}
/* Build the root registry path */
RtlInitEmptyUnicodeString(&KeyPath, Buffer, sizeof(Buffer));
RtlAppendUnicodeToString(&KeyPath, L"\\Registry\\Machine\\System\\CurrentControlSet\\Services\\");
/* Find the first subkey (ie: the first driver or service) */
i = 0;
DriverCell = CmpFindSubKeyByNumber(Hive, ServicesNode, i);
while (DriverCell != HCELL_NIL)
{
/* Make sure it's a driver of this start type AND is "safe" to load */
if (CmpIsLoadType(Hive, DriverCell, LoadType) &&
CmpIsSafe(Hive, SafeBootCell, DriverCell))
{
/* Add it to the list */
CmpAddDriverToList(Hive,
DriverCell,
GroupOrderCell,
&KeyPath,
DriverListHead);
}
/* Try the next subkey */
DriverCell = CmpFindSubKeyByNumber(Hive, ServicesNode, ++i);
}
/* Check if we have a boot file system */
if (BootFileSystem)
{
/* Find it */
RtlInitUnicodeString(&UnicodeString, BootFileSystem);
DriverCell = CmpFindSubKeyByName(Hive, ServicesNode, &UnicodeString);
if (DriverCell != HCELL_NIL)
{
/* Always add it to the list */
CmpAddDriverToList(Hive,
DriverCell,
GroupOrderCell,
&KeyPath,
DriverListHead);
/* Mark it as critical so it always loads */
FsNode = CONTAINING_RECORD(DriverListHead->Flink,
BOOT_DRIVER_NODE,
ListEntry.Link);
FsNode->ErrorControl = SERVICE_ERROR_CRITICAL;
}
}
/* We're done! */
return TRUE;
}
BOOLEAN
NTAPI
INIT_FUNCTION
CmpDoSort(IN PLIST_ENTRY DriverListHead,
IN PUNICODE_STRING OrderList)
{
PWCHAR Current, End = NULL;
PLIST_ENTRY NextEntry;
UNICODE_STRING GroupName;
PBOOT_DRIVER_NODE CurrentNode;
/* We're going from end to start, so get to the last group and keep going */
Current = &OrderList->Buffer[OrderList->Length / sizeof(WCHAR)];
while (Current > OrderList->Buffer)
{
/* Scan the current string */
do
{
if (*Current == UNICODE_NULL) End = Current;
} while ((*(--Current - 1) != UNICODE_NULL) && (Current != OrderList->Buffer));
/* This is our cleaned up string for this specific group */
ASSERT(End != NULL);
GroupName.Length = (USHORT)(End - Current) * sizeof(WCHAR);
GroupName.MaximumLength = GroupName.Length;
GroupName.Buffer = Current;
/* Now loop the driver list */
NextEntry = DriverListHead->Flink;
while (NextEntry != DriverListHead)
{
/* Get this node */
CurrentNode = CONTAINING_RECORD(NextEntry,
BOOT_DRIVER_NODE,
ListEntry.Link);
/* Get the next entry now since we'll do a relink */
NextEntry = CurrentNode->ListEntry.Link.Flink;
/* Is there a group name and does it match the current group? */
if ((CurrentNode->Group.Buffer) &&
(RtlEqualUnicodeString(&GroupName, &CurrentNode->Group, TRUE)))
{
/* Remove from this location and re-link in the new one */
RemoveEntryList(&CurrentNode->ListEntry.Link);
InsertHeadList(DriverListHead, &CurrentNode->ListEntry.Link);
}
}
/* Move on */
Current--;
}
/* All done */
return TRUE;
}
BOOLEAN
NTAPI
INIT_FUNCTION
CmpSortDriverList(IN PHHIVE Hive,
IN HCELL_INDEX ControlSet,
IN PLIST_ENTRY DriverListHead)
{
HCELL_INDEX Controls, GroupOrder, ListCell;
UNICODE_STRING Name, DependList;
PCM_KEY_VALUE ListNode;
ULONG Length;
PCM_KEY_NODE Node;
ASSERT(Hive->ReleaseCellRoutine == NULL);
/* Open the control key */
Node = HvGetCell(Hive, ControlSet);
ASSERT(Node);
RtlInitUnicodeString(&Name, L"Control");
Controls = CmpFindSubKeyByName(Hive, Node, &Name);
if (Controls == HCELL_NIL) return FALSE;
/* Open the service group order */
Node = HvGetCell(Hive, Controls);
ASSERT(Node);
RtlInitUnicodeString(&Name, L"ServiceGroupOrder");
GroupOrder = CmpFindSubKeyByName(Hive, Node, &Name);
if (GroupOrder == HCELL_NIL) return FALSE;
/* Open the list key */
Node = HvGetCell(Hive, GroupOrder);
ASSERT(Node);
RtlInitUnicodeString(&Name, L"list");
ListCell = CmpFindValueByName(Hive, Node, &Name);
if (ListCell == HCELL_NIL) return FALSE;
/* Now read the actual list */
ListNode = HvGetCell(Hive, ListCell);
ASSERT(ListNode);
if (ListNode->Type != REG_MULTI_SZ) return FALSE;
/* Copy it into a buffer */
DependList.Buffer = (PWCHAR)CmpValueToData(Hive, ListNode, &Length);
if (!DependList.Buffer) return FALSE;
DependList.Length = DependList.MaximumLength = (USHORT)Length - sizeof(UNICODE_NULL);
/* And start the recurive sort algorithm */
return CmpDoSort(DriverListHead, &DependList);
}
BOOLEAN
NTAPI
INIT_FUNCTION
CmpOrderGroup(IN PBOOT_DRIVER_NODE StartNode,
IN PBOOT_DRIVER_NODE EndNode)
{
PBOOT_DRIVER_NODE CurrentNode, PreviousNode;
PLIST_ENTRY ListEntry;
/* Base case, nothing to do */
if (StartNode == EndNode) return TRUE;
/* Loop the nodes */
CurrentNode = StartNode;
do
{
/* Save this as the previous node */
PreviousNode = CurrentNode;
/* And move to the next one */
ListEntry = CurrentNode->ListEntry.Link.Flink;
CurrentNode = CONTAINING_RECORD(ListEntry,
BOOT_DRIVER_NODE,
ListEntry.Link);
/* Check if the previous driver had a bigger tag */
if (PreviousNode->Tag > CurrentNode->Tag)
{
/* Check if we need to update the tail */
if (CurrentNode == EndNode)
{
/* Update the tail */
ListEntry = CurrentNode->ListEntry.Link.Blink;
EndNode = CONTAINING_RECORD(ListEntry,
BOOT_DRIVER_NODE,
ListEntry.Link);
}
/* Remove this driver since we need to move it */
RemoveEntryList(&CurrentNode->ListEntry.Link);
/* Keep looping until we find a driver with a lower tag than ours */
while ((PreviousNode->Tag > CurrentNode->Tag) && (PreviousNode != StartNode))
{
/* We'll be re-inserted at this spot */
ListEntry = PreviousNode->ListEntry.Link.Blink;
PreviousNode = CONTAINING_RECORD(ListEntry,
BOOT_DRIVER_NODE,
ListEntry.Link);
}
/* Do the insert in the new location */
InsertTailList(&PreviousNode->ListEntry.Link, &CurrentNode->ListEntry.Link);
/* Update the head, if needed */
if (PreviousNode == StartNode) StartNode = CurrentNode;
}
} while (CurrentNode != EndNode);
/* All done */
return TRUE;
}
BOOLEAN
NTAPI
INIT_FUNCTION
CmpResolveDriverDependencies(IN PLIST_ENTRY DriverListHead)
{
PLIST_ENTRY NextEntry;
PBOOT_DRIVER_NODE StartNode, EndNode, CurrentNode;
/* Loop the list */
NextEntry = DriverListHead->Flink;
while (NextEntry != DriverListHead)
{
/* Find the first entry */
StartNode = CONTAINING_RECORD(NextEntry,
BOOT_DRIVER_NODE,
ListEntry.Link);
do
{
/* Find the last entry */
EndNode = CONTAINING_RECORD(NextEntry,
BOOT_DRIVER_NODE,
ListEntry.Link);
/* Get the next entry */
NextEntry = NextEntry->Flink;
CurrentNode = CONTAINING_RECORD(NextEntry,
BOOT_DRIVER_NODE,
ListEntry.Link);
/* If the next entry is back to the top, break out */
if (NextEntry == DriverListHead) break;
/* Otherwise, check if this entry is equal */
if (!RtlEqualUnicodeString(&StartNode->Group,
&CurrentNode->Group,
TRUE))
{
/* It is, so we've detected a cycle, break out */
break;
}
} while (NextEntry != DriverListHead);
/* Now we have the correct start and end pointers, so do the sort */
CmpOrderGroup(StartNode, EndNode);
}
/* We're done */
return TRUE;
}
BOOLEAN
NTAPI
INIT_FUNCTION
CmpIsSafe(IN PHHIVE Hive,
IN HCELL_INDEX SafeBootCell,
IN HCELL_INDEX DriverCell)
{
PCM_KEY_NODE SafeBootNode;
PCM_KEY_NODE DriverNode;
PCM_KEY_VALUE KeyValue;
HCELL_INDEX CellIndex;
ULONG Length = 0;
UNICODE_STRING Name;
PWCHAR OriginalName;
ASSERT(Hive->ReleaseCellRoutine == NULL);
/* Driver key node (mandatory) */
ASSERT(DriverCell != HCELL_NIL);
DriverNode = HvGetCell(Hive, DriverCell);
ASSERT(DriverNode);
/* Safe boot key node (optional but return TRUE if not present) */
if(SafeBootCell == HCELL_NIL) return TRUE;
SafeBootNode = HvGetCell(Hive, SafeBootCell);
if(!SafeBootNode) return FALSE;
/* Search by the name from the group */
RtlInitUnicodeString(&Name, L"Group");
CellIndex = CmpFindValueByName(Hive, DriverNode, &Name);
if(CellIndex != HCELL_NIL)
{
KeyValue = HvGetCell(Hive, CellIndex);
ASSERT(KeyValue);
if (KeyValue->Type == REG_SZ || KeyValue->Type == REG_EXPAND_SZ)
{
/* Compose the search 'key' */
Name.Buffer = (PWCHAR)CmpValueToData(Hive, KeyValue, &Length);
if (!Name.Buffer) return FALSE;
Name.Length = (USHORT)Length - sizeof(UNICODE_NULL);
Name.MaximumLength = Name.Length;
/* Search for corresponding key in the Safe Boot key */
CellIndex = CmpFindSubKeyByName(Hive, SafeBootNode, &Name);
if(CellIndex != HCELL_NIL) return TRUE;
}
}
/* Group has not been found - find driver name */
Name.Length = DriverNode->Flags & KEY_COMP_NAME ?
CmpCompressedNameSize(DriverNode->Name,
DriverNode->NameLength) :
DriverNode->NameLength;
Name.MaximumLength = Name.Length;
/* Now allocate the buffer for it and copy the name */
Name.Buffer = CmpAllocate(Name.Length, FALSE, TAG_CM);
if (!Name.Buffer) return FALSE;
if (DriverNode->Flags & KEY_COMP_NAME)
{
/* Compressed name */
CmpCopyCompressedName(Name.Buffer,
Name.Length,
DriverNode->Name,
DriverNode->NameLength);
}
else
{
/* Normal name */
RtlCopyMemory(Name.Buffer, DriverNode->Name, DriverNode->NameLength);
}
CellIndex = CmpFindSubKeyByName(Hive, SafeBootNode, &Name);
RtlFreeUnicodeString(&Name);
if(CellIndex != HCELL_NIL) return TRUE;
/* Not group or driver name - search by image name */
RtlInitUnicodeString(&Name, L"ImagePath");
CellIndex = CmpFindValueByName(Hive, DriverNode, &Name);
if(CellIndex != HCELL_NIL)
{
KeyValue = HvGetCell(Hive, CellIndex);
ASSERT(KeyValue);
if (KeyValue->Type == REG_SZ || KeyValue->Type == REG_EXPAND_SZ)
{
/* Compose the search 'key' */
OriginalName = (PWCHAR)CmpValueToData(Hive, KeyValue, &Length);
if (!OriginalName) return FALSE;
/* Get the base image file name */
Name.Buffer = wcsrchr(OriginalName, L'\\');
if (!Name.Buffer) return FALSE;
++Name.Buffer;
/* Length of the base name must be >=1 */
Name.Length = (USHORT)Length - (USHORT)((PUCHAR)Name.Buffer - (PUCHAR)OriginalName)
- sizeof(UNICODE_NULL);
if(Name.Length < 1) return FALSE;
Name.MaximumLength = Name.Length;
/* Search for corresponding key in the Safe Boot key */
CellIndex = CmpFindSubKeyByName(Hive, SafeBootNode, &Name);
if(CellIndex != HCELL_NIL) return TRUE;
}
}
/* Nothing found - nothing else to search */
return FALSE;
}
/* EOF */