reactos/drivers/sac/driver/util.c

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/*
* PROJECT: ReactOS Drivers
* LICENSE: BSD - See COPYING.ARM in the top level directory
* FILE: drivers/sac/driver/util.c
* PURPOSE: Driver for the Server Administration Console (SAC) for EMS
* PROGRAMMERS: ReactOS Portable Systems Group
*/
/* INCLUDES *******************************************************************/
#include "sacdrv.h"
#include <ndk/rtlfuncs.h>
/* GLOBALS ********************************************************************/
PCHAR Utf8ConversionBuffer;
ULONG Utf8ConversionBufferSize = PAGE_SIZE;
PSAC_MACHINE_INFO MachineInformation;
PVOID RequestSacCmdEventObjectBody;
PKEVENT RequestSacCmdEventWaitObjectBody;
PVOID RequestSacCmdSuccessEventObjectBody;
PKEVENT RequestSacCmdSuccessEventWaitObjectBody;
PVOID RequestSacCmdFailureEventObjectBody;
PKEVENT RequestSacCmdFailureEventWaitObjectBody;
PFILE_OBJECT ServiceProcessFileObject;
BOOLEAN HaveUserModeServiceCmdEventInfo;
PSAC_MESSAGE_ENTRY GlobalMessageTable;
ULONG GlobalMessageTableCount;
LONG SerialPortConsumerIndex, SerialPortProducerIndex;
PCHAR SerialPortBuffer;
/* FUNCTIONS ******************************************************************/
BOOLEAN
NTAPI
SacTranslateUtf8ToUnicode(IN CHAR Utf8Char,
IN PCHAR Utf8Buffer,
OUT PWCHAR Utf8Value)
{
ULONG i;
/* Find out how many valid characters we have in the buffer */
i = 0;
while (Utf8Buffer[i++] && (i < 3));
/* If we have at least 3, shift everything by a byte */
if (i >= 3)
{
/* The last input character goes at the end */
Utf8Buffer[0] = Utf8Buffer[1];
Utf8Buffer[1] = Utf8Buffer[2];
Utf8Buffer[2] = Utf8Char;
}
else
{
/* We don't have more than 3 characters, place the input at the index */
Utf8Buffer[i] = Utf8Char;
}
/* Print to debugger */
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SacTranslateUtf8ToUnicode - About to decode the UTF8 buffer.\n");
SAC_DBG(SAC_DBG_ENTRY_EXIT, " UTF8[0]: 0x%02lx UTF8[1]: 0x%02lx UTF8[2]: 0x%02lx\n",
Utf8Buffer[0],
Utf8Buffer[1],
Utf8Buffer[2]);
/* Is this a simple ANSI character? */
if (!(Utf8Char & 0x80))
{
/* Return it as Unicode, nothing left to do */
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SACDRV: SacTranslateUTf8ToUnicode - Case1\n");
*Utf8Value = (WCHAR)Utf8Char;
Utf8Buffer[0] = Utf8Buffer[1];
Utf8Buffer[1] = Utf8Buffer[2];
Utf8Buffer[2] = UNICODE_NULL;
return TRUE;
}
/* Anything else is not yet supported */
ASSERT(FALSE);
return FALSE;
}
BOOLEAN
NTAPI
SacTranslateUnicodeToUtf8(IN PWCHAR SourceBuffer,
IN ULONG SourceBufferLength,
OUT PCHAR DestinationBuffer,
IN ULONG DestinationBufferSize,
OUT PULONG UTF8Count,
OUT PULONG ProcessedCount)
{
*UTF8Count = 0;
*ProcessedCount = 0;
while ((*SourceBuffer) &&
(*UTF8Count < DestinationBufferSize) &&
(*ProcessedCount < SourceBufferLength))
{
if (*SourceBuffer & 0xFF80)
{
if (*SourceBuffer & 0xF800)
{
if ((*UTF8Count + 3) >= DestinationBufferSize) break;
DestinationBuffer[*UTF8Count] = ((*SourceBuffer >> 12) & 0xF) | 0xE0;
++*UTF8Count;
DestinationBuffer[*UTF8Count] = ((*SourceBuffer >> 6) & 0x3F) | 0x80;
}
else
{
if ((*UTF8Count + 2) >= DestinationBufferSize) break;
DestinationBuffer[*UTF8Count] = ((*SourceBuffer >> 6) & 31) | 0xC0;
}
++*UTF8Count;
DestinationBuffer[*UTF8Count] = (*SourceBuffer & 0x3F) | 0x80;
}
else
{
DestinationBuffer[*UTF8Count] = (*SourceBuffer & 0x7F);
}
++*UTF8Count;
++*ProcessedCount;
++SourceBuffer;
}
ASSERT(*ProcessedCount <= SourceBufferLength);
ASSERT(*UTF8Count <= DestinationBufferSize);
return TRUE;
}
PWCHAR
NTAPI
GetMessage(IN ULONG MessageIndex)
{
PSAC_MESSAGE_ENTRY MessageEntry;
ULONG i;
PWCHAR MessageData = NULL;
/* Loop all cached messages */
for (i = 0; i < GlobalMessageTableCount; i++)
{
/* Check if this one matches the index */
MessageEntry = &GlobalMessageTable[i];
if (MessageEntry->Index == MessageIndex)
{
/* It does, return the buffer */
MessageData = MessageEntry->Buffer;
break;
}
}
/* We should always find it */
if (!MessageData) ASSERT(FALSE);
return MessageData;
}
NTSTATUS
NTAPI
UTF8EncodeAndSend(IN PWCHAR String)
{
ULONG ProcessedCount, Utf8Count, i;
NTSTATUS Status = STATUS_SUCCESS;
/* Call the translator routine */
if (SacTranslateUnicodeToUtf8(String,
wcslen(String),
Utf8ConversionBuffer,
Utf8ConversionBufferSize,
&Utf8Count,
&ProcessedCount))
{
/* Loop every character */
for (i = 0; i < Utf8Count; i++)
{
/* Send it to the terminal */
Status = HeadlessDispatch(HeadlessCmdPutData,
&Utf8ConversionBuffer[i],
sizeof(Utf8ConversionBuffer[i]),
NULL,
NULL);
if (!NT_SUCCESS(Status)) break;
}
}
else
{
/* Conversion failed */
Status = STATUS_UNSUCCESSFUL;
}
/* All done */
return Status;
}
VOID
NTAPI
SacFormatMessage(IN PWCHAR FormattedString,
IN PWCHAR MessageString,
IN ULONG MessageSize)
{
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC SacFormatMessage: Entering.\n");
/* Check if any of the parameters are NULL or zero */
if (!(MessageString) || !(FormattedString) || !(MessageSize))
{
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC SacFormatMessage: Exiting with invalid parameters.\n");
return;
}
/* Keep going as long as there's still characters */
while ((MessageString[0]) && (MessageSize))
{
/* Is it a non-formatting character? */
if (MessageString[0] != L'%')
{
/* Just write it back into the buffer and keep going */
*FormattedString++ = MessageString[0];
MessageString++;
}
else
{
/* Go over the format characters we recognize */
switch (MessageString[1])
{
case L'0':
*FormattedString = UNICODE_NULL;
return;
case L'%':
*FormattedString++ = L'%';
break;
case L'\\':
*FormattedString++ = L'\r';
*FormattedString++ = L'\n';
break;
case L'r':
*FormattedString++ = L'\r';
break;
case L'b':
*FormattedString++ = L' ';
break;
case L'.':
*FormattedString++ = L'.';
break;
case L'!':
*FormattedString++ = L'!';
break;
default:
/* Only move forward one character */
MessageString--;
break;
}
/* Move forward two characters */
MessageString += 2;
}
/* Move to the next character*/
MessageSize--;
}
/* All done */
*FormattedString = UNICODE_NULL;
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC SacFormatMessage: Exiting.\n");
}
NTSTATUS
NTAPI
PreloadGlobalMessageTable(IN PVOID ImageBase)
{
NTSTATUS Status, Status2;
ULONG MessageId, TotalLength, TextSize, i;
PWCHAR StringBuffer;
PMESSAGE_RESOURCE_ENTRY MessageEntry;
PAGED_CODE();
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC PreloadGlobalMessageTable: Entering.\n");
/* Nothing to do if we already have a table */
Status = STATUS_SUCCESS;
if (GlobalMessageTable) goto Exit;
/* Loop through up to 200 messages */
TotalLength = 0;
for (MessageId = 1; MessageId != SAC_MAX_MESSAGES; MessageId++)
{
/* Find this message ID in the string table*/
Status2 = RtlFindMessage(ImageBase,
11,
LANG_NEUTRAL,
MessageId,
&MessageEntry);
if (NT_SUCCESS(Status2))
{
/* Make sure it's Unicode */
ASSERT(MessageEntry->Flags & MESSAGE_RESOURCE_UNICODE);
/* Remove the space taken up by the OS header, and add our own */
TotalLength += MessageEntry->Length -
FIELD_OFFSET(MESSAGE_RESOURCE_ENTRY, Text) +
sizeof(SAC_MESSAGE_ENTRY);
/* One more in the table */
GlobalMessageTableCount++;
}
}
/* We should've found at least one message... */
if (!TotalLength)
{
/* Bail out otherwise */
SAC_DBG(SAC_DBG_INIT, "SAC PreloadGlobalMessageTable: No Messages.\n");
Status = STATUS_INVALID_PARAMETER;
goto Exit;
}
/* Allocate space for the buffers and headers */
GlobalMessageTable = SacAllocatePool(TotalLength, GLOBAL_BLOCK_TAG);
if (!GlobalMessageTable)
{
/* Bail out if we couldn't allocate it */
Status = STATUS_NO_MEMORY;
goto Exit;
}
/* All the buffers are going to be at the end of the table */
StringBuffer = (PWCHAR)(&GlobalMessageTable[GlobalMessageTableCount]);
/* Now loop over our entries again */
for (i = 0, MessageId = 1; MessageId != SAC_MAX_MESSAGES; MessageId++)
{
/* Make sure the message is still there...! */
Status2 = RtlFindMessage(ImageBase,
11,
LANG_NEUTRAL,
MessageId,
&MessageEntry);
if (NT_SUCCESS(Status2))
{
/* Write the entry in the message table*/
GlobalMessageTable[i].Index = MessageId;
GlobalMessageTable[i].Buffer = StringBuffer;
/* The structure includes the size of the header, elide it */
TextSize = MessageEntry->Length -
FIELD_OFFSET(MESSAGE_RESOURCE_ENTRY, Text);
/* Format the message into the entry. It should be same or smaller */
SacFormatMessage(StringBuffer, (PWCHAR)MessageEntry->Text, TextSize);
ASSERT((ULONG)(wcslen(StringBuffer)*sizeof(WCHAR)) <= TextSize);
/* Move to the next buffer space */
StringBuffer += (TextSize / sizeof(WCHAR));
/* Move to the next entry, make sure the status is full success */
i++;
Status = STATUS_SUCCESS;
}
}
Exit:
/* All done, return the status code */
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC TearDownGlobalMessageTable: Exiting with status 0x%0x\n", Status);
return Status;
}
NTSTATUS
NTAPI
TearDownGlobalMessageTable(VOID)
{
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC TearDownGlobalMessageTable: Entering.\n");
/* Free the table if one existed */
if (GlobalMessageTable) SacFreePool(GlobalMessageTable);
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC TearDownGlobalMessageTable: Exiting\n");
return STATUS_SUCCESS;
}
NTSTATUS
NTAPI
GetRegistryValueBuffer(IN PCWSTR KeyName,
IN PWCHAR ValueName,
IN PKEY_VALUE_PARTIAL_INFORMATION* Buffer)
{
NTSTATUS Status;
OBJECT_ATTRIBUTES ObjectAttributes;
UNICODE_STRING DestinationString;
HANDLE Handle;
2018-04-23 09:27:49 +00:00
ULONG ResultLength = 0;
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC GetRegistryValueBuffer: Entering.\n");
CHECK_PARAMETER1(KeyName);
CHECK_PARAMETER2(ValueName);
/* Open the specified key */
RtlInitUnicodeString(&DestinationString, KeyName);
InitializeObjectAttributes(&ObjectAttributes,
&DestinationString,
OBJ_CASE_INSENSITIVE | OBJ_KERNEL_HANDLE,
NULL,
NULL);
Status = ZwOpenKey(&Handle,
KEY_WRITE | SYNCHRONIZE | KEY_READ,
&ObjectAttributes);
if (!NT_SUCCESS(Status))
{
/* Bail out on failure */
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC GetRegistryValueBuffer: failed ZwOpenKey: %X.\n", Status);
return Status;
}
/* Query the size of the key */
RtlInitUnicodeString(&DestinationString, ValueName);
Status = ZwQueryValueKey(Handle,
&DestinationString,
KeyValuePartialInformation,
NULL,
0,
&ResultLength);
if (!ResultLength)
goto Quit;
/* Allocate the buffer for the partial info structure and our integer data */
ResultLength += sizeof(ULONG);
*Buffer = SacAllocatePool(ResultLength, GLOBAL_BLOCK_TAG);
if (!*Buffer)
{
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC GetRegistryValueBuffer: failed allocation\n");
goto Quit;
}
/* Now read the data */
Status = ZwQueryValueKey(Handle,
&DestinationString,
KeyValuePartialInformation,
*Buffer,
ResultLength,
&ResultLength);
if (!NT_SUCCESS(Status))
{
/* Free the buffer if we couldn't read the data */
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC GetRegistryValueBuffer: failed ZwQueryValueKey: %X.\n", Status);
SacFreePool(*Buffer);
}
Quit:
/* Close the handle and exit */
ZwClose(Handle);
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC GetRegistryValueBuffer: Exiting.\n");
return Status;
}
NTSTATUS
NTAPI
SetRegistryValue(IN PCWSTR KeyName,
IN PWCHAR ValueName,
IN ULONG Type,
IN PVOID Data,
IN ULONG DataSize)
{
NTSTATUS Status;
OBJECT_ATTRIBUTES ObjectAttributes;
UNICODE_STRING DestinationString;
HANDLE Handle;
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC SetRegistryValue: Entering.\n");
CHECK_PARAMETER1(KeyName);
CHECK_PARAMETER2(ValueName);
CHECK_PARAMETER4(Data);
/* Open the specified key */
RtlInitUnicodeString(&DestinationString, KeyName);
InitializeObjectAttributes(&ObjectAttributes,
&DestinationString,
OBJ_CASE_INSENSITIVE | OBJ_KERNEL_HANDLE,
NULL,
NULL);
Status = ZwOpenKey(&Handle,
KEY_WRITE | SYNCHRONIZE | KEY_READ,
&ObjectAttributes);
if (!NT_SUCCESS(Status))
{
/* Bail out on failure */
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC SetRegistryValue: failed ZwOpenKey: %X.\n", Status);
return Status;
}
/* Set the specified value */
RtlInitUnicodeString(&DestinationString, ValueName);
Status = ZwSetValueKey(Handle, &DestinationString, 0, Type, Data, DataSize);
if (!NT_SUCCESS(Status))
{
/* Print error on failure */
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC SetRegistryValue: failed ZwSetValueKey: %X.\n", Status);
}
/* Close the handle and exit */
ZwClose(Handle);
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC SetRegistryValue: Exiting.\n");
return Status;
}
NTSTATUS
NTAPI
CopyRegistryValueData(IN PVOID* Buffer,
IN PKEY_VALUE_PARTIAL_INFORMATION PartialInfo)
{
NTSTATUS Status = STATUS_SUCCESS;
CHECK_PARAMETER1(Buffer);
CHECK_PARAMETER2(PartialInfo);
/* Allocate space for registry data */
*Buffer = SacAllocatePool(PartialInfo->DataLength, GLOBAL_BLOCK_TAG);
if (*Buffer)
{
/* Copy the data into the buffer */
RtlCopyMemory(*Buffer, PartialInfo->Data, PartialInfo->DataLength);
}
else
{
/* Set the correct error code */
SAC_DBG(SAC_DBG_UTIL, "SAC CopyRegistryValueBuffer: Failed ALLOCATE.\n");
Status = STATUS_NO_MEMORY;
}
/* Return the result */
return Status;
}
NTSTATUS
NTAPI
TranslateMachineInformationXML(IN PWCHAR *Buffer,
IN PWCHAR ExtraData)
{
NTSTATUS Status;
2018-04-23 09:27:49 +00:00
SIZE_T Size;
PWCHAR p;
CHECK_PARAMETER1(Buffer);
/* Start by believing the world is beautiful */
Status = STATUS_SUCCESS;
/* First, the header */
Size = wcslen(L"<machine-info>\r\n");
/* Do we have a machine name? */
if (MachineInformation->MachineName)
{
/* Go and add it in */
Size += wcslen(MachineInformation->MachineName);
Size += wcslen(L"<name>%s</name>\r\n");
}
/* Do we have a GUID? */
if (MachineInformation->MachineGuid)
{
/* Go and add it in */
Size += wcslen(MachineInformation->MachineGuid);
Size += wcslen(L"<guid>%s</guid>\r\n");
}
/* Do we know the processor? */
if (MachineInformation->ProcessorArchitecture)
{
/* Go and add it in */
Size += wcslen(MachineInformation->ProcessorArchitecture);
Size += wcslen(L"<processor-architecture>%s</processor-architecture>\r\n");
}
/* Do we have the version? */
if (MachineInformation->MajorVersion)
{
/* Go and add it in */
Size += wcslen(MachineInformation->MajorVersion);
Size += wcslen(L"<os-version>%s</os-version>\r\n");
}
/* Do we have the build? */
if (MachineInformation->BuildNumber)
{
/* Go and add it in */
Size += wcslen(MachineInformation->BuildNumber);
Size += wcslen(L"<os-build-number>%s</os-build-number>\r\n");
}
/* Do we have the product type? */
if (MachineInformation->ProductType)
{
/* Go and add it in */
Size += wcslen(MachineInformation->ProductType);
Size += wcslen(L"<os-product>%s</os-product>\r\n");
}
/* Do we have a service pack? */
if (MachineInformation->ServicePack)
{
/* Go and add it in */
Size += wcslen(MachineInformation->ServicePack);
Size += wcslen(L"<os-service-pack>%s</os-service-pack>\r\n");
}
/* Anything else we need to know? Add it in too */
if (ExtraData) Size += wcslen(ExtraData);
/* Finally, add the footer */
Size += wcslen(L"</machine-info>\r\n");
/* Convert to bytes and add a NULL */
Size += sizeof(ANSI_NULL);
Size *= sizeof(WCHAR);
/* Allocate space for the buffer */
p = SacAllocatePool(Size, GLOBAL_BLOCK_TAG);
*Buffer = p;
if (!p) return STATUS_NO_MEMORY;
wcscpy(p, L"<machine-info>\r\n");
p += wcslen(L"<machine-info>\r\n");
if (MachineInformation->MachineName)
{
p += swprintf(p,
L"<name>%s</name>\r\n",
MachineInformation->MachineName);
}
if (MachineInformation->MachineGuid)
{
p += swprintf(p,
L"<guid>%s</guid>\r\n",
MachineInformation->MachineGuid);
}
if (MachineInformation->ProcessorArchitecture)
{
p += swprintf(p,
L"<processor-architecture>%s</processor-architecture>\r\n",
MachineInformation->ProcessorArchitecture);
}
if (MachineInformation->MajorVersion)
{
p += swprintf(p,
L"<os-version>%s</os-version>\r\n",
MachineInformation->MajorVersion);
}
if (MachineInformation->BuildNumber)
{
p += swprintf(p,
L"<os-build-number>%s</os-build-number>\r\n",
MachineInformation->BuildNumber);
}
if (MachineInformation->ProductType)
{
p += swprintf(p,
L"<os-product>%s</os-product>\r\n",
MachineInformation->ProductType);
}
if (MachineInformation->ServicePack)
{
p += swprintf(p,
L"<os-service-pack>%s</os-service-pack>\r\n",
MachineInformation->ServicePack);
}
if (ExtraData)
{
wcscpy(p, ExtraData);
p += wcslen(ExtraData);
}
wcscpy(p, L"</machine-info>\r\n");
SAC_DBG(SAC_DBG_ENTRY_EXIT, "MachineInformation: %S\n", *Buffer);
ASSERT((((ULONG)wcslen(*Buffer) + 1) * sizeof(WCHAR)) <= Size);
return Status;
}
VOID
NTAPI
InitializeMachineInformation(VOID)
{
NTSTATUS Status;
PWCHAR GuidString, MajorVersion, ServicePack, BuildNumber, MessageBuffer;
PWCHAR ProductType;
ULONG SuiteTypeMessage;
BOOLEAN SetupInProgress = FALSE;
GUID SystemGuid;
2018-04-23 09:27:49 +00:00
SIZE_T RealSize, Size, OutputSize;
PKEY_VALUE_PARTIAL_INFORMATION PartialInfo;
RTL_OSVERSIONINFOEXW VersionInformation;
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC Initialize Machine Information : Entering.\n");
/* Don't do anything if we already queried this */
if (MachineInformation)
{
SAC_DBG(SAC_DBG_MACHINE, "SAC Initialize Machine Information:: MachineInformationBuffer already initialized.\n");
return;
}
/* Allocate the machine information */
MachineInformation = SacAllocatePool(sizeof(*MachineInformation),
GLOBAL_BLOCK_TAG);
if (!MachineInformation)
{
goto Fail;
}
/* Zero it out for now */
RtlZeroMemory(MachineInformation, sizeof(*MachineInformation));
/* Query OS version */
RtlZeroMemory(&VersionInformation, sizeof(VersionInformation));
VersionInformation.dwOSVersionInfoSize = sizeof(VersionInformation);
Status = RtlGetVersion((PRTL_OSVERSIONINFOW)&VersionInformation);
if (!NT_SUCCESS(Status))
{
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC InitializeMachineInformation: Exiting (2).\n");
goto Fail;
}
/* Check if setup is in progress */
Status = GetRegistryValueBuffer(L"\\Registry\\Machine\\System\\Setup",
L"SystemSetupInProgress",
&PartialInfo);
if (NT_SUCCESS(Status))
{
/* The key is there, is the value set? */
if (*(PULONG)PartialInfo->Data) SetupInProgress = TRUE;
SacFreePool(PartialInfo);
if (SetupInProgress)
{
/* Yes, so we'll use a special hostname to identify this */
MessageBuffer = GetMessage(SAC_UNINITIALIZED_MSG);
Size = wcslen(MessageBuffer);
ASSERT(Size > 0);
RealSize = Size * sizeof(WCHAR) + sizeof(UNICODE_NULL);
/* Make room for it and copy it in there */
MachineInformation->MachineName = SacAllocatePool(RealSize,
GLOBAL_BLOCK_TAG);
if (MachineInformation->MachineName)
{
wcscpy(MachineInformation->MachineName, MessageBuffer);
}
}
}
/* If we are not in setup mode, or if we failed to check... */
if (!SetupInProgress)
{
/* Query the computer name */
Status = GetRegistryValueBuffer(L"\\Registry\\Machine\\System\\"
L"CurrentControlSet\\Control\\"
L"ComputerName\\ComputerName",
L"ComputerName",
&PartialInfo);
if (!NT_SUCCESS(Status))
{
/* It's not critical, but we won't have it */
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC InitializeMachineInformation: Failed to get machine name.\n");
}
else
{
/* We have the name, copy it from the registry */
Status = CopyRegistryValueData((PVOID*)&MachineInformation->
MachineName,
PartialInfo);
SacFreePool(PartialInfo);
if (!NT_SUCCESS(Status))
{
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC InitializeMachineInformation: Exiting (20).\n");
goto Fail;
}
}
}
/* Next step, try to get the machine GUID */
RtlZeroMemory(&SystemGuid, sizeof(SystemGuid));
OutputSize = sizeof(SystemGuid);
Status = HeadlessDispatch(HeadlessCmdQueryGUID,
NULL,
0,
&SystemGuid,
&OutputSize);
if (!NT_SUCCESS(Status))
{
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC InitializeMachineInformation: Failed to get Machine GUID.\n");
}
else
{
/* We have it -- make room for it */
GuidString = SacAllocatePool(0x50, GLOBAL_BLOCK_TAG);
if (!GuidString)
{
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC InitializeMachineInformation: Exiting (31).\n");
goto Fail;
}
/* Build the string with the GUID in it, and save the ppointer to it */
swprintf(GuidString,
L"%08lx-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x",
SystemGuid.Data1,
SystemGuid.Data2,
SystemGuid.Data3,
SystemGuid.Data4[0],
SystemGuid.Data4[1],
SystemGuid.Data4[2],
SystemGuid.Data4[3],
SystemGuid.Data4[4],
SystemGuid.Data4[5],
SystemGuid.Data4[6],
SystemGuid.Data4[7]);
MachineInformation->MachineGuid = GuidString;
}
/* Next, query the processor architecture */
Status = GetRegistryValueBuffer(L"\\Registry\\Machine\\System\\"
L"CurrentControlSet\\Control\\"
L"Session Manager\\Environment",
L"PROCESSOR_ARCHITECTURE",
&PartialInfo);
if (!NT_SUCCESS(Status))
{
/* It's not critical, but we won't have it */
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC InitializeMachineInformation: Exiting (30).\n");
}
else
{
/* We have it! Copy the value from the registry */
Status = CopyRegistryValueData((PVOID*)&MachineInformation->
ProcessorArchitecture,
PartialInfo);
SacFreePool(PartialInfo);
if (!NT_SUCCESS(Status))
{
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC InitializeMachineInformation: Exiting (30).\n");
goto Fail;
}
}
/* Now allocate a buffer for the OS version number */
MajorVersion = SacAllocatePool(0x18, GLOBAL_BLOCK_TAG);
if (!MajorVersion)
{
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC InitializeMachineInformation: Exiting (50).\n");
goto Fail;
}
/* Build the buffer and set a pointer to it */
swprintf(MajorVersion,
L"%d.%d",
VersionInformation.dwMajorVersion,
VersionInformation.dwMinorVersion);
MachineInformation->MajorVersion = MajorVersion;
/* Now allocate a buffer for the OS build number */
BuildNumber = SacAllocatePool(0xC, GLOBAL_BLOCK_TAG);
if (!BuildNumber)
{
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC InitializeMachineInformation: Exiting (60).\n");
goto Fail;
}
/* Build the buffer and set a pointer to it */
swprintf(BuildNumber, L"%d", VersionInformation.dwBuildNumber);
MachineInformation->BuildNumber = BuildNumber;
/* Now check what kind of SKU this is */
if (ExVerifySuite(DataCenter))
{
SuiteTypeMessage = SAC_DATACENTER_SUITE_MSG;
}
else if (ExVerifySuite(EmbeddedNT))
{
SuiteTypeMessage = SAC_EMBEDDED_SUITE_MSG;
}
else if (ExVerifySuite(Enterprise))
{
SuiteTypeMessage = SAC_ENTERPRISE_SUITE_MSG;
}
else
{
/* Unknown or perhaps a client SKU */
SuiteTypeMessage = SAC_NO_SUITE_MSG;
}
/* Get the string that corresponds to the SKU type */
MessageBuffer = GetMessage(SuiteTypeMessage);
if (!MessageBuffer)
{
/* We won't have it, but this isn't critical */
SAC_DBG(SAC_DBG_INIT, "SAC InitializeMachineInformation: Failed to get product type.\n");
}
else
{
/* Calculate the size we need to hold the string */
Size = wcslen(MessageBuffer);
ASSERT(Size > 0);
RealSize = Size * sizeof(WCHAR) + sizeof(UNICODE_NULL);
/* Allocate a buffer for it */
ProductType = SacAllocatePool(RealSize, GLOBAL_BLOCK_TAG);
if (!ProductType)
{
SAC_DBG(SAC_DBG_INIT, "SAC InitializeMachineInformation: Failed product type memory allocation.\n");
goto Fail;
}
/* Copy the string and set the pointer */
RtlCopyMemory(ProductType, MessageBuffer, RealSize);
MachineInformation->ProductType = ProductType;
}
/* Check if this is a SP version or RTM version */
if (VersionInformation.wServicePackMajor)
{
/* This is a service pack, allocate a buffer for the version */
ServicePack = SacAllocatePool(0x18, GLOBAL_BLOCK_TAG);
if (ServicePack)
{
/* Build the buffer and set a pointer to it */
swprintf(ServicePack,
L"%d.%d",
VersionInformation.wServicePackMajor,
VersionInformation.wServicePackMinor);
MachineInformation->ServicePack = ServicePack;
/* We've collected all the machine info and are done! */
return;
}
/* This is the failure path */
SAC_DBG(SAC_DBG_INIT, "SAC InitializeMachineInformation: Failed service pack memory allocation.\n");
}
else
{
/* Get a generic string that indicates there's no service pack */
MessageBuffer = GetMessage(SAC_NO_DATA_MSG);
Size = wcslen(MessageBuffer);
ASSERT(Size > 0);
RealSize = Size * sizeof(WCHAR) + sizeof(UNICODE_NULL);
/* Allocate memory for the "no service pack" string */
ServicePack = SacAllocatePool(RealSize, GLOBAL_BLOCK_TAG);
if (ServicePack)
{
/* Copy the buffer and set a pointer to it */
RtlCopyMemory(ServicePack, MessageBuffer, RealSize);
MachineInformation->ServicePack = ServicePack;
/* We've collected all the machine info and are done! */
return;
}
SAC_DBG(SAC_DBG_INIT, "SAC InitializeMachineInformation: Failed service pack memory allocation.\n");
}
Fail:
/* In the failure path, always cleanup the machine information buffer */
if (MachineInformation)
{
SacFreePool(MachineInformation);
}
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC Initialize Machine Information : Exiting with error.\n");
}
NTSTATUS
NTAPI
GetCommandConsoleLaunchingPermission(OUT PBOOLEAN Permission)
{
NTSTATUS Status;
PKEY_VALUE_PARTIAL_INFORMATION Dummy;
/* Assume success and read the key */
*Permission = TRUE;
Status = GetRegistryValueBuffer(L"\\Registry\\Machine\\System\\CurrentControlSet\\Services\\sacdrv",
L"DisableCmdSessions",
&Dummy);
if (Status == STATUS_OBJECT_NAME_NOT_FOUND)
{
/* The default is success */
Status = STATUS_SUCCESS;
}
else
{
/* Only if the key is present and set, do we disable permission */
if (NT_SUCCESS(Status)) *Permission = FALSE;
}
/* Return status */
return Status;
}
NTSTATUS
NTAPI
ImposeSacCmdServiceStartTypePolicy(VOID)
{
NTSTATUS Status;
PKEY_VALUE_PARTIAL_INFORMATION Buffer = NULL;
PULONG Data;
/* Read the service start type*/
Status = GetRegistryValueBuffer(L"\\Registry\\Machine\\System\\CurrentControlSet\\Services\\sacsvr",
L"Start",
&Buffer);
if (!NT_SUCCESS(Status)) return Status;
/* If there's no start type, fail, as this is unusual */
if (!Buffer) return STATUS_UNSUCCESSFUL;
/* Read the value */
Status = CopyRegistryValueData((PVOID*)&Data, Buffer);
SacFreePool(Buffer);
if (!NT_SUCCESS(Status)) return Status;
/* Check what the current start type is */
switch (*Data)
{
/* It's boot, system, or disabled */
case 1:
case 2:
case 4:
/* Leave it as is */
return Status;
case 3:
/* It's set to automatic, set it to system instead */
*Data = 2;
Status = SetRegistryValue(L"\\Registry\\Machine\\System\\CurrentControlSet\\Services\\sacsvr",
L"Start",
REG_DWORD,
Data,
sizeof(ULONG));
if (!NT_SUCCESS(Status))
{
SAC_DBG(SAC_DBG_INIT, "SAC ImposeSacCmdServiceStartTypePolicy: Failed SetRegistryValue: %X\n", Status);
}
break;
default:
ASSERT(FALSE);
}
return Status;
}
VOID
NTAPI
InitializeCmdEventInfo(VOID)
{
/* Check if we were already initialized */
if (HaveUserModeServiceCmdEventInfo)
{
/* Full state expected */
ASSERT(RequestSacCmdEventObjectBody);
ASSERT(RequestSacCmdSuccessEventObjectBody);
ASSERT(RequestSacCmdFailureEventObjectBody);
/* Dereference each wait object in turn */
if (RequestSacCmdEventObjectBody)
{
ObDereferenceObject(RequestSacCmdEventObjectBody);
}
if (RequestSacCmdSuccessEventObjectBody)
{
ObDereferenceObject(RequestSacCmdSuccessEventObjectBody);
}
if (RequestSacCmdFailureEventObjectBody)
{
ObDereferenceObject(RequestSacCmdFailureEventObjectBody);
}
}
/* Claer everything */
RequestSacCmdEventObjectBody = NULL;
RequestSacCmdEventWaitObjectBody = NULL;
RequestSacCmdSuccessEventObjectBody = NULL;
RequestSacCmdSuccessEventWaitObjectBody = NULL;
RequestSacCmdFailureEventObjectBody = NULL;
RequestSacCmdFailureEventWaitObjectBody = NULL;
ServiceProcessFileObject = NULL;
/* Reset state */
HaveUserModeServiceCmdEventInfo = FALSE;
}
NTSTATUS
NTAPI
RegisterBlueScreenMachineInformation(VOID)
{
PWCHAR XmlBuffer;
PHEADLESS_CMD_SET_BLUE_SCREEN_DATA BsBuffer;
2018-04-23 09:27:49 +00:00
SIZE_T Length, HeaderLength, TotalLength;
NTSTATUS Status;
ULONG i;
/* Create the XML buffer and make sure it's OK */
Status = TranslateMachineInformationXML(&XmlBuffer, NULL);
CHECK_PARAMETER_WITH_STATUS(NT_SUCCESS(Status), Status);
CHECK_PARAMETER_WITH_STATUS(XmlBuffer, STATUS_UNSUCCESSFUL);
/* Compute the sizes and allocate a buffer for it */
Length = wcslen(XmlBuffer);
HeaderLength = strlen("MACHINEINFO");
TotalLength = HeaderLength +
Length +
sizeof(*BsBuffer) +
2 * sizeof(ANSI_NULL);
BsBuffer = SacAllocatePool(TotalLength, GLOBAL_BLOCK_TAG);
CHECK_PARAMETER_WITH_STATUS(BsBuffer, STATUS_NO_MEMORY);
/* Copy the XML property name */
strcpy((PCHAR)BsBuffer->Data, "MACHINEINFO");
BsBuffer->ValueIndex = HeaderLength + sizeof(ANSI_NULL);
/* Copy the data and NULL-terminate it */
for (i = 0; i < Length; i++)
{
BsBuffer->Data[BsBuffer->ValueIndex + i] = XmlBuffer[i];
}
BsBuffer->Data[BsBuffer->ValueIndex + i] = ANSI_NULL;
/* Let the OS save the buffer for later */
Status = HeadlessDispatch(HeadlessCmdSetBlueScreenData,
BsBuffer,
TotalLength,
NULL,
NULL);
/* Failure or not, we don't need this anymore */
SacFreePool(BsBuffer);
SacFreePool(XmlBuffer);
/* Return the result */
SAC_DBG(SAC_DBG_ENTRY_EXIT, "SAC Initialize Machine Information: Exiting.\n");
return Status;
}
VOID
NTAPI
FreeMachineInformation(VOID)
{
ASSERT(MachineInformation);
/* Free every cached string of machine information */
if (MachineInformation->MachineName) SacFreePool(MachineInformation);
if (MachineInformation->MachineGuid) SacFreePool(MachineInformation->MachineGuid);
if (MachineInformation->ProcessorArchitecture) SacFreePool(MachineInformation->ProcessorArchitecture);
if (MachineInformation->MajorVersion) SacFreePool(MachineInformation->MajorVersion);
if (MachineInformation->BuildNumber) SacFreePool(MachineInformation->BuildNumber);
if (MachineInformation->ProductType) SacFreePool(MachineInformation->ProductType);
if (MachineInformation->ServicePack) SacFreePool(MachineInformation->ServicePack);
}
BOOLEAN
NTAPI
VerifyEventWaitable(IN HANDLE Handle,
OUT PVOID *WaitObject,
OUT PVOID *ActualWaitObject)
{
PVOID Object;
NTSTATUS Status;
POBJECT_TYPE ObjectType;
/* Reference the object */
Status = ObReferenceObjectByHandle(Handle,
EVENT_ALL_ACCESS,
NULL,
KernelMode,
&Object,
NULL);
*WaitObject = Object;
if (!NT_SUCCESS(Status))
{
SAC_DBG(SAC_DBG_INIT, "SAC VerifyEventWaitable: Unable to reference event object (%lx)\n", Status);
return FALSE;
}
/* Check if the object itself is NOT being used */
ObjectType = OBJECT_TO_OBJECT_HEADER(Object)->Type;
if (ObjectType->TypeInfo.UseDefaultObject == FALSE)
{
/* Get the actual object that's being used for the wait */
*ActualWaitObject = (PVOID)((ULONG_PTR)Object +
(ULONG_PTR)ObjectType->DefaultObject);
return TRUE;
}
/* Drop the reference we took */
SAC_DBG(SAC_DBG_INIT, "SAC VerifyEventWaitable: event object not waitable!\n");
ObDereferenceObject(*WaitObject);
return FALSE;
}
NTSTATUS
NTAPI
SerialBufferGetChar(OUT PCHAR Char)
{
/* Check if nothing's been produced yet */
if (SerialPortConsumerIndex == SerialPortProducerIndex)
{
return STATUS_NO_DATA_DETECTED;
}
/* Consume the produced character and clear it*/
*Char = SerialPortBuffer[SerialPortConsumerIndex];
SerialPortBuffer[SerialPortConsumerIndex] = ANSI_NULL;
/* Advance the index and return success */
_InterlockedExchange(&SerialPortConsumerIndex,
(SerialPortConsumerIndex + 1) &
(SAC_SERIAL_PORT_BUFFER_SIZE - 1));
return STATUS_SUCCESS;
}
ULONG
NTAPI
GetMessageLineCount(IN ULONG MessageIndex)
{
ULONG LineCount = 0;
PWCHAR Buffer;
/* Get the message buffer */
Buffer = GetMessage(MessageIndex);
if (Buffer)
{
/* Scan it looking for new lines, and increment the count each time */
while (*Buffer) if (*Buffer++ == L'\n') ++LineCount;
}
/* Return the line count */
return LineCount;
}
ULONG
ConvertAnsiToUnicode(
IN PWCHAR pwch,
IN PCHAR pch,
IN ULONG length
)
{
return STATUS_NOT_IMPLEMENTED;
}
BOOLEAN
IsCmdEventRegistrationProcess(
IN PFILE_OBJECT FileObject
)
{
return FALSE;
}
NTSTATUS
InvokeUserModeService(
VOID
)
{
return STATUS_NOT_IMPLEMENTED;
}
NTSTATUS
TranslateMachineInformationText(
IN PWCHAR Buffer)
{
return STATUS_NOT_IMPLEMENTED;
}
NTSTATUS
CopyAndInsertStringAtInterval(
IN PWCHAR SourceStr,
IN ULONG Interval,
IN PWCHAR InsertStr,
OUT PWCHAR pDestStr
)
{
return STATUS_NOT_IMPLEMENTED;
}
NTSTATUS
RegisterSacCmdEvent(
IN PVOID Object,
IN PKEVENT SetupCmdEvent[]
)
{
return STATUS_NOT_IMPLEMENTED;
}
NTSTATUS
UnregisterSacCmdEvent(
IN PFILE_OBJECT FileObject
)
{
return STATUS_NOT_IMPLEMENTED;
}