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windows-nt/Source/XPSP1/NT/drivers/sac/driver/cmd.c
CryptoAlgo Inc b3cac27891 Add source files
2020-09-26 16:20:57 +08:00

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/*++
Copyright (c) 1989 Microsoft Corporation
Module Name:
cmd.c
Abstract:
This module contains the routines for handling each command.
Author:
Sean Selitrennikoff (v-seans) - Dec 2, 1999
Revision History:
--*/
#include "sac.h"
#include <ntddip.h>
#include <ntddtcp.h>
#include <tdiinfo.h>
#include <ipinfo.h>
#include <stdlib.h>
BOOLEAN GlobalPagingNeeded = TRUE;
BOOLEAN GlobalDoThreads = FALSE;
// For the APC routines, a global value is better :-)
IO_STATUS_BLOCK GlobalIoStatusBlock;
ULONG GlobalBufferSize = 0;
char *GlobalBuffer = NULL;
typedef struct _SAC_RSP_TLIST {
SYSTEM_BASIC_INFORMATION BasicInfo;
SYSTEM_TIMEOFDAY_INFORMATION TimeOfDayInfo;
SYSTEM_FILECACHE_INFORMATION FileCache;
SYSTEM_PERFORMANCE_INFORMATION PerfInfo;
ULONG PagefileInfoOffset;
ULONG ProcessInfoOffset;
} SAC_RSP_TLIST, *PSAC_RSP_TLIST;
WCHAR *StateTable[] = {
L"Initialized",
L"Ready",
L"Running",
L"Standby",
L"Terminated",
L"Wait:",
L"Transition",
L"Unknown",
L"Unknown",
L"Unknown",
L"Unknown",
L"Unknown"
};
WCHAR *WaitTable[] = {
L"Executive",
L"FreePage",
L"PageIn",
L"PoolAllocation",
L"DelayExecution",
L"Suspended",
L"UserRequest",
L"Executive",
L"FreePage",
L"PageIn",
L"PoolAllocation",
L"DelayExecution",
L"Suspended",
L"UserRequest",
L"EventPairHigh",
L"EventPairLow",
L"LpcReceive",
L"LpcReply",
L"VirtualMemory",
L"PageOut",
L"Spare1",
L"Spare2",
L"Spare3",
L"Spare4",
L"Spare5",
L"Spare6",
L"Spare7",
L"Unknown",
L"Unknown",
L"Unknown"
};
WCHAR *Empty = L" ";
#define IP_LOOPBACK(x) (((x) & 0x000000ff) == 0x7f)
#define IS_WHITESPACE(_ch) ((_ch == ' ') || (_ch == '\t'))
#define IS_NUMBER(_ch) ((_ch >= '0') && (_ch <= '9'))
#define SKIP_WHITESPACE(_pch) \
while (IS_WHITESPACE(*_pch) && (*_pch != '\0')) { \
_pch++; \
}
#define SKIP_NUMBERS(_pch) \
while (IS_NUMBER(*_pch) && (*_pch != '\0')) { \
_pch++; \
}
//
// Forward declarations.
//
NTSTATUS
GetTListInfo(
OUT PSAC_RSP_TLIST ResponseBuffer,
IN LONG ResponseBufferSize,
OUT PULONG ResponseDataSize
);
VOID
PrintTListInfo(
IN PSAC_RSP_TLIST Buffer
);
VOID
PutMore(
OUT PBOOLEAN Stop
);
VOID
DoGetNetInfo(
IN BOOLEAN PrintToTerminal
);
VOID
NetAPCRoutine(IN PVOID ApcContext,
IN PIO_STATUS_BLOCK IoStatusBlock,
IN ULONG Reserved
);
VOID
DoHelpCommand(
VOID
)
/*++
Routine Description:
This routine displays the help text on the terminal.
Arguments:
None.
Return Value:
None.
--*/
{
SacPutSimpleMessage( SAC_HELP_D_CMD );
SacPutSimpleMessage( SAC_HELP_F_CMD );
SacPutSimpleMessage( SAC_HELP_HELP_CMD );
SacPutSimpleMessage( SAC_HELP_I1_CMD );
SacPutSimpleMessage( SAC_HELP_I2_CMD );
SacPutSimpleMessage( SAC_HELP_I3_CMD );
SacPutSimpleMessage( SAC_HELP_IDENTIFICATION_CMD );
SacPutSimpleMessage( SAC_HELP_K_CMD );
SacPutSimpleMessage( SAC_HELP_L_CMD );
SacPutSimpleMessage( SAC_HELP_M_CMD );
SacPutSimpleMessage( SAC_HELP_P_CMD );
SacPutSimpleMessage( SAC_HELP_R_CMD );
SacPutSimpleMessage( SAC_HELP_S1_CMD );
SacPutSimpleMessage( SAC_HELP_S2_CMD );
SacPutSimpleMessage( SAC_HELP_T_CMD );
SacPutSimpleMessage( SAC_HELP_Q_CMD );
SacPutSimpleMessage( SAC_HELP_RESTART_CMD );
SacPutSimpleMessage( SAC_HELP_SHUTDOWN_CMD );
SacPutSimpleMessage( SAC_HELP_CRASHDUMP1_CMD );
SacPutSimpleMessage( SAC_HELP_CRASHDUMP2_CMD );
}
VOID
DoFullInfoCommand(
VOID
)
/*++
Routine Description:
This routine toggles on and off full thread information on tlist.
Arguments:
None.
Return Value:
None.
--*/
{
GlobalDoThreads = (BOOLEAN)!GlobalDoThreads;
if (GlobalDoThreads) {
SacPutSimpleMessage(SAC_THREAD_ON);
} else {
SacPutSimpleMessage(SAC_THREAD_OFF);
}
}
VOID
DoPagingCommand(
VOID
)
/*++
Routine Description:
This routine toggles on and off paging information on tlist.
Arguments:
None.
Return Value:
None.
--*/
{
GlobalPagingNeeded = (BOOLEAN)!GlobalPagingNeeded;
if (GlobalPagingNeeded) {
SacPutSimpleMessage(SAC_PAGING_ON);
} else {
SacPutSimpleMessage(SAC_PAGING_OFF);
}
}
VOID
DoSetTimeCommand(
PUCHAR InputLine
)
/*++
Routine Description:
This routine sets the current system time.
Arguments:
InputLine - The users input line to parse.
Return Value:
None.
--*/
{
NTSTATUS Status;
PUCHAR pch = InputLine;
PUCHAR pchTmp;
TIME_FIELDS TimeFields;
LARGE_INTEGER Time;
SYSTEM_TIMEOFDAY_INFORMATION TimeOfDay;
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Entering.\n")));
//
// Get the global buffer started so that we have room for error messages.
//
if (GlobalBuffer == NULL) {
GlobalBuffer = ALLOCATE_POOL(MEMORY_INCREMENT, GENERAL_POOL_TAG);
if (GlobalBuffer == NULL) {
SacPutSimpleMessage(SAC_NO_MEMORY);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (1).\n")));
return;
}
GlobalBufferSize = MEMORY_INCREMENT;
}
RtlZeroMemory(&TimeFields, sizeof(TIME_FIELDS));
//
// Skip the command.
//
pch += (sizeof(TIME_COMMAND_STRING) - sizeof(UCHAR));
SKIP_WHITESPACE(pch);
if (*pch == '\0') {
//
// This is a display time request.
//
Status = ZwQuerySystemInformation(SystemTimeOfDayInformation,
&TimeOfDay,
sizeof(TimeOfDay),
NULL
);
if (!NT_SUCCESS(Status)) {
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR ) , Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (2).\n")));
return;
}
RtlTimeToTimeFields(&(TimeOfDay.CurrentTime), &TimeFields);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_DATETIME_FORMAT ),
TimeFields.Month,
TimeFields.Day,
TimeFields.Year,
TimeFields.Hour,
TimeFields.Minute,
TimeFields.Second,
TimeFields.Milliseconds
);
SacPutUnicodeString((PWSTR)GlobalBuffer);
return;
}
pchTmp = pch;
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (3).\n")));
return;
}
//
// Skip all the numbers.
//
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
//
// If there is something other than the divider, it is a mal-formed line.
//
if (*pchTmp != '/') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (4).\n")));
return;
}
*pchTmp = '\0';
pchTmp++;
TimeFields.Month = (USHORT)(atoi((LPCSTR)pch));
pch = pchTmp;
SKIP_WHITESPACE(pchTmp);
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (4b).\n")));
return;
}
//
// Skip all the numbers.
//
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
//
// If there is something other than the divider, it is a mal-formed line.
//
if (*pchTmp != '/') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (5).\n")));
return;
}
*pchTmp = '\0';
pchTmp++;
TimeFields.Day = (USHORT)(atoi((LPCSTR)pch));
pch = pchTmp;
SKIP_WHITESPACE(pchTmp);
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (5b).\n")));
return;
}
//
// Skip all the numbers.
//
SKIP_NUMBERS(pchTmp);
//
// If there is something other than whitespace, it is a mal-formed line.
//
if (!IS_WHITESPACE(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (6).\n")));
return;
}
*pchTmp = '\0';
pchTmp++;
TimeFields.Year = (USHORT)(atoi((LPCSTR)pch));
if ((TimeFields.Year < 1980) || (TimeFields.Year > 2099)) {
SacPutSimpleMessage(SAC_DATETIME_LIMITS);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (6b).\n")));
return;
}
pch = pchTmp;
//
// Skip to the hours
//
SKIP_WHITESPACE(pchTmp);
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (7).\n")));
return;
}
pch = pchTmp;
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
if (*pchTmp != ':') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (8).\n")));
return;
}
*pchTmp = '\0';
pchTmp++;
TimeFields.Hour = (USHORT)(atoi((LPCSTR)pch));
pch = pchTmp;
//
// Verify nothing else on the line but numbers
//
SKIP_WHITESPACE(pchTmp);
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (8a).\n")));
return;
}
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
if (*pchTmp != '\0') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (8b).\n")));
return;
}
//
// Get the minutes.
//
TimeFields.Minute = (USHORT)(atoi((LPCSTR)pch));
if (!RtlTimeFieldsToTime(&TimeFields, &Time)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (9).\n")));
return;
}
Status = ZwSetSystemTime(&Time, NULL);
if (!NT_SUCCESS(Status)) {
sprintf((LPSTR)GlobalBuffer, "Failed with status 0x%X.\r\n", Status);
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetTimeCommand: Exiting (10).\n")));
return;
}
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_DATETIME_FORMAT2 ),
TimeFields.Month,
TimeFields.Day,
TimeFields.Year,
TimeFields.Hour,
TimeFields.Minute
);
SacPutUnicodeString((PWSTR)GlobalBuffer);
return;
}
VOID
DoSetIpAddressCommand(
PUCHAR InputLine
)
/*++
Routine Description:
This routine sets the IP address and subnet mask.
Arguments:
InputLine - The users input line to parse.
Return Value:
None.
--*/
{
NTSTATUS Status;
PUCHAR pch = InputLine;
PUCHAR pchTmp;
HANDLE Handle;
HANDLE EventHandle;
PKEVENT Event;
ULONG IpAddress;
ULONG SubIpAddress;
ULONG SubnetMask;
ULONG NetworkNumber;
LARGE_INTEGER TimeOut;
IO_STATUS_BLOCK IoStatusBlock;
UNICODE_STRING UnicodeString;
OBJECT_ATTRIBUTES ObjectAttributes;
PIP_SET_ADDRESS_REQUEST IpRequest;
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Entering.\n")));
//
// Get the global buffer started so that we have room for error messages.
//
if (GlobalBuffer == NULL) {
GlobalBuffer = ALLOCATE_POOL(MEMORY_INCREMENT, GENERAL_POOL_TAG);
if (GlobalBuffer == NULL) {
SacPutSimpleMessage(SAC_NO_MEMORY);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (1).\n")));
return;
}
GlobalBufferSize = MEMORY_INCREMENT;
}
//
// Skip the command.
//
pch += (sizeof(SETIP_COMMAND_STRING) - sizeof(UCHAR));
SKIP_WHITESPACE(pch);
if (*pch == '\0') {
//
// No other parameters, get the network numbers and their IP addresses.
//
DoGetNetInfo( TRUE );
return;
}
pchTmp = pch;
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (1b).\n")));
return;
}
SKIP_NUMBERS(pchTmp);
if (!IS_WHITESPACE(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (1c).\n")));
return;
}
*pchTmp = '\0';
pchTmp++;
NetworkNumber = atoi((LPCSTR)pch);
pch = pchTmp;
//
// Parse out the IP address.
//
//
// Skip ahead to the divider and make it a \0.
//
SKIP_WHITESPACE(pchTmp);
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (2).\n")));
return;
}
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
if (*pchTmp != '.') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (4).\n")));
return;
}
*pchTmp = '\0';
pchTmp++;
SubIpAddress = atoi((LPCSTR)pch);
if( SubIpAddress > 255 ) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (4a).\n")));
return;
}
IpAddress = SubIpAddress;
//
// Get 2nd part
//
pch = pchTmp;
SKIP_WHITESPACE(pchTmp);
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (4b).\n")));
return;
}
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
if (*pchTmp != '.') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (5).\n")));
return;
}
*pchTmp = '\0';
pchTmp++;
SubIpAddress = atoi((LPCSTR)pch);
if( SubIpAddress > 255 ) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (5a).\n")));
return;
}
IpAddress |= (SubIpAddress << 8);
//
// Get 3rd part
//
pch = pchTmp;
SKIP_WHITESPACE(pchTmp);
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (5b).\n")));
return;
}
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
if (*pchTmp != '.') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (6).\n")));
return;
}
*pchTmp = '\0';
pchTmp++;
SubIpAddress = atoi((LPCSTR)pch);
if( SubIpAddress > 255 ) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (6a).\n")));
return;
}
IpAddress |= (SubIpAddress << 16);
//
// Get 4th part
//
pch = pchTmp;
SKIP_WHITESPACE(pchTmp);
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (6b).\n")));
return;
}
SKIP_NUMBERS(pchTmp);
if (!IS_WHITESPACE(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (7).\n")));
return;
}
*pchTmp = '\0';
pchTmp++;
SubIpAddress = atoi((LPCSTR)pch);
if( SubIpAddress > 255 ) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (7a).\n")));
return;
}
IpAddress |= (SubIpAddress << 24);
//
//
// Now onto the subnet mask.
//
//
//
// Skip ahead to the divider and make it a \0.
//
SKIP_WHITESPACE(pchTmp);
pch = pchTmp;
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (8).\n")));
return;
}
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
if (*pchTmp != '.') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (9).\n")));
return;
}
*pchTmp = '\0';
pchTmp++;
SubIpAddress = atoi((LPCSTR)pch);
if( SubIpAddress > 255 ) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (9a).\n")));
return;
}
SubnetMask = SubIpAddress;
//
// Get 2nd part
//
pch = pchTmp;
SKIP_WHITESPACE(pchTmp);
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (9b).\n")));
return;
}
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
if (*pchTmp != '.') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (10).\n")));
return;
}
*pchTmp = '\0';
pchTmp++;
SubIpAddress = atoi((LPCSTR)pch);
if( SubIpAddress > 255 ) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (10a).\n")));
return;
}
SubnetMask |= (SubIpAddress << 8);
//
// Get 3rd part
//
pch = pchTmp;
SKIP_WHITESPACE(pchTmp);
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (10b).\n")));
return;
}
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
if (*pchTmp != '.') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (11).\n")));
return;
}
*pchTmp = '\0';
pchTmp++;
SubIpAddress = atoi((LPCSTR)pch);
if( SubIpAddress > 255 ) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (11a).\n")));
return;
}
SubnetMask |= (SubIpAddress << 16);
//
// Get 4th part
//
pch = pchTmp;
SKIP_WHITESPACE(pchTmp);
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (12).\n")));
return;
}
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
if (*pchTmp != '\0') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (13).\n")));
return;
}
SubIpAddress = atoi((LPCSTR)pch);
if( SubIpAddress > 255 ) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (13a).\n")));
return;
}
SubnetMask |= (SubIpAddress << 24);
//
//
// Now that that is done, we move onto actually doing the command.
//
//
//
// Start by opening the driver
//
RtlInitUnicodeString(&UnicodeString, DD_IP_DEVICE_NAME);
InitializeObjectAttributes(&ObjectAttributes,
&UnicodeString,
OBJ_CASE_INSENSITIVE,
NULL,
NULL
);
Status = ZwOpenFile(&Handle,
(ACCESS_MASK)FILE_GENERIC_READ,
&ObjectAttributes,
&IoStatusBlock,
FILE_SHARE_READ | FILE_SHARE_WRITE,
0
);
if (!NT_SUCCESS(Status)) {
SacPutSimpleMessage(SAC_IPADDRESS_SET_FAILURE);
IF_SAC_DEBUG(
SAC_DEBUG_FUNC_TRACE,
KdPrint(("SAC DoSetIpAddressCommand: failed to open TCP device, ec = 0x%X\n",
Status)));
return;
}
//
// Setup notification event
//
RtlInitUnicodeString(&UnicodeString, L"\\BaseNamedObjects\\SACEvent");
Event = IoCreateSynchronizationEvent(&UnicodeString, &EventHandle);
if (Event == NULL) {
SacPutSimpleMessage(SAC_IPADDRESS_RETRIEVE_FAILURE);
ZwClose(Handle);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Event is NULL.\n")));
return;
}
//
// Setup the IOCTL buffer to delete the old address.
//
IpRequest = (PIP_SET_ADDRESS_REQUEST)GlobalBuffer;
IpRequest->Address = 0;
IpRequest->SubnetMask = 0;
IpRequest->Context = (USHORT)NetworkNumber;
//
// Submit the IOCTL
//
Status = NtDeviceIoControlFile(Handle,
EventHandle,
NULL,
NULL,
&IoStatusBlock,
IOCTL_IP_SET_ADDRESS,
IpRequest,
sizeof(IP_SET_ADDRESS_REQUEST),
NULL,
0
);
if (Status == STATUS_PENDING) {
//
// Wait up to 30 seconds for it to finish
//
TimeOut.QuadPart = Int32x32To64((LONG)30000, -1000);
Status = KeWaitForSingleObject((PVOID)Event, Executive, KernelMode, FALSE, &TimeOut);
if (Status == STATUS_SUCCESS) {
Status = IoStatusBlock.Status;
}
}
if (Status != STATUS_SUCCESS) {
SacPutSimpleMessage( SAC_IPADDRESS_CLEAR_FAILURE );
ZwClose(EventHandle);
ZwClose(Handle);
IF_SAC_DEBUG(
SAC_DEBUG_FUNC_TRACE,
KdPrint(("SAC DoSetIpAddressCommand: Exiting because it couldn't clear existing IP Address (0x%X).\n",
Status)));
return;
}
//
// Now add our address.
//
IpRequest = (PIP_SET_ADDRESS_REQUEST)GlobalBuffer;
IpRequest->Address = IpAddress;
IpRequest->SubnetMask = SubnetMask;
IpRequest->Context = (USHORT)NetworkNumber;
//
// Submit the IOCTL
//
Status = NtDeviceIoControlFile(Handle,
EventHandle,
NULL,
NULL,
&IoStatusBlock,
IOCTL_IP_SET_ADDRESS,
IpRequest,
sizeof(IP_SET_ADDRESS_REQUEST),
NULL,
0
);
if (Status == STATUS_PENDING) {
//
// Wait up to 30 seconds for it to finish
//
TimeOut.QuadPart = Int32x32To64((LONG)30000, -1000);
Status = KeWaitForSingleObject((PVOID)Event, Executive, KernelMode, FALSE, &TimeOut);
if (NT_SUCCESS(Status)) {
Status = IoStatusBlock.Status;
}
}
ZwClose(EventHandle);
ZwClose(Handle);
if (!NT_SUCCESS(Status)) {
SacPutSimpleMessage( SAC_IPADDRESS_SET_FAILURE );
IF_SAC_DEBUG(
SAC_DEBUG_FUNC_TRACE,
KdPrint(("SAC DoSetIpAddressCommand: Exiting because it couldn't set existing IP Address (0x%X).\n",
Status)));
return;
}
SacPutSimpleMessage( SAC_IPADDRESS_SET_SUCCESS );
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting.\n")));
return;
}
VOID
DoKillCommand(
PUCHAR InputLine
)
/*++
Routine Description:
This routine kill a process.
Arguments:
InputLine - The users input line to parse.
Return Value:
None.
--*/
{
NTSTATUS Status;
NTSTATUS StatusOfJobObject;
HANDLE Handle = NULL;
HANDLE JobHandle = NULL;
PUCHAR pch = InputLine;
PUCHAR pchTmp;
ULONG ProcessId;
OBJECT_ATTRIBUTES ObjectAttributes;
UNICODE_STRING UnicodeString;
CLIENT_ID ClientId;
BOOLEAN TerminateJobObject;
BOOLEAN TerminateProcessObject;
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoKillCommand: Entering.\n")));
//
// Get the global buffer started so that we have room for error messages.
//
if (GlobalBuffer == NULL) {
GlobalBuffer = ALLOCATE_POOL(MEMORY_INCREMENT, GENERAL_POOL_TAG);
if (GlobalBuffer == NULL) {
SacPutSimpleMessage(SAC_NO_MEMORY);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoKillCommand: Exiting (1).\n")));
return;
}
GlobalBufferSize = MEMORY_INCREMENT;
}
//
// Skip to next argument (process id)
//
pch += (sizeof(KILL_COMMAND_STRING) - sizeof(UCHAR));
SKIP_WHITESPACE(pch);
if (*pch == '\0') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoKillCommand: Exiting (2).\n")));
return;
}
pchTmp = pch;
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoKillCommand: Exiting (2b).\n")));
return;
}
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
if (*pchTmp != '\0') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoKillCommand: Exiting (3).\n")));
return;
}
ProcessId = atoi((LPCSTR)pch);
//
// Try and open an existing job object
//
swprintf((PWCHAR)GlobalBuffer, L"\\BaseNamedObjects\\SAC%d", ProcessId);
RtlInitUnicodeString(&UnicodeString, (PWCHAR)GlobalBuffer);
InitializeObjectAttributes(&ObjectAttributes,
&UnicodeString,
OBJ_CASE_INSENSITIVE,
NULL,
NULL
);
StatusOfJobObject = ZwOpenJobObject(&JobHandle, MAXIMUM_ALLOWED, &ObjectAttributes);
//
// Also open a handle to the process itself.
//
InitializeObjectAttributes(&ObjectAttributes,
NULL,
OBJ_CASE_INSENSITIVE,
NULL,
NULL
);
ClientId.UniqueProcess = (HANDLE)UlongToPtr(ProcessId);
ClientId.UniqueThread = NULL;
Status = ZwOpenProcess(&Handle,
MAXIMUM_ALLOWED,
&ObjectAttributes,
&ClientId
);
if (!NT_SUCCESS(Status) && !NT_SUCCESS(StatusOfJobObject)) {
SacPutSimpleMessage(SAC_KILL_FAILURE);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoKillCommand: Exiting (4).\n")));
return;
}
//
// To make the logic here more understandable, I use two booleans. We have to use
// ZwIsProcessInJob because there may be a previous JobObject for a process that we
// have killed, but has not yet been fully cleaned up by the system to determine if
// the process we are trying to kill is, in fact, in the JobObject we have opened.
//
TerminateJobObject = (BOOLEAN)(NT_SUCCESS(StatusOfJobObject) &&
(BOOLEAN)NT_SUCCESS(Status) &&
(BOOLEAN)(ZwIsProcessInJob(Handle, JobHandle) == STATUS_PROCESS_IN_JOB)
);
TerminateProcessObject = !TerminateJobObject && (BOOLEAN)NT_SUCCESS(Status);
if (TerminateJobObject) {
Status = ZwTerminateJobObject(JobHandle, 1);
//
// Make the job object temporary so that when we do our close it
// will remove it.
//
ZwMakeTemporaryObject(JobHandle);
} else if (TerminateProcessObject) {
Status = ZwTerminateProcess(Handle, 1);
}
if (JobHandle != NULL) {
ZwClose(JobHandle);
}
if (Handle != NULL) {
ZwClose(Handle);
}
if (!TerminateProcessObject && !TerminateJobObject) {
SacPutSimpleMessage(SAC_PROCESS_STALE);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoKillCommand: Exiting (5).\n")));
return;
} else if (!NT_SUCCESS(Status)) {
SacPutSimpleMessage(SAC_KILL_FAILURE);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoKillCommand: Exiting (6).\n")));
return;
}
//
// All done
//
SacPutSimpleMessage(SAC_KILL_SUCCESS);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoKillCommand: Exiting.\n")));
return;
}
VOID
DoLowerPriorityCommand(
PUCHAR InputLine
)
/*++
Routine Description:
This routine slams the priority of a process down to the lowest possible, IDLE.
Arguments:
InputLine - The users input line to parse.
Return Value:
None.
--*/
{
NTSTATUS Status;
PUCHAR pch = InputLine;
PUCHAR pchTmp;
ULONG ProcessId;
CLIENT_ID ClientId;
OBJECT_ATTRIBUTES ObjectAttributes;
HANDLE ProcessHandle = NULL;
PROCESS_BASIC_INFORMATION BasicInfo;
ULONG LoopCounter;
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLowerPriorityCommand: Entering.\n")));
//
// Get the global buffer started so that we have room for error messages.
//
if (GlobalBuffer == NULL) {
GlobalBuffer = ALLOCATE_POOL(MEMORY_INCREMENT, GENERAL_POOL_TAG);
if (GlobalBuffer == NULL) {
SacPutSimpleMessage(SAC_NO_MEMORY);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLowerPriorityCommand: Exiting (1).\n")));
goto Exit;
}
GlobalBufferSize = MEMORY_INCREMENT;
}
//
// Skip to next argument (process id)
//
pch += (sizeof(LOWER_COMMAND_STRING) - sizeof(UCHAR));
SKIP_WHITESPACE(pch);
if (!IS_NUMBER(*pch)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLowerPriorityCommand: Exiting (2).\n")));
goto Exit;
}
pchTmp = pch;
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
if (*pchTmp != '\0') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLowerPriorityCommand: Exiting (3).\n")));
return;
}
ProcessId = atoi((LPCSTR)pch);
//
// Try to open the process
//
InitializeObjectAttributes(&ObjectAttributes,
NULL,
OBJ_CASE_INSENSITIVE,
NULL,
NULL
);
ClientId.UniqueProcess = (HANDLE)UlongToPtr(ProcessId);
ClientId.UniqueThread = NULL;
Status = ZwOpenProcess(&ProcessHandle,
MAXIMUM_ALLOWED,
&ObjectAttributes,
&ClientId
);
if (!NT_SUCCESS(Status)) {
SacPutSimpleMessage(SAC_LOWERPRI_FAILURE);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLowerPriorityCommand: Exiting (4).\n")));
goto Exit;
}
//
// Query information on the process.
//
Status = ZwQueryInformationProcess( ProcessHandle,
ProcessBasicInformation,
&BasicInfo,
sizeof(PROCESS_BASIC_INFORMATION),
NULL );
if (!NT_SUCCESS(Status)) {
SacPutSimpleMessage(SAC_LOWERPRI_FAILURE);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLowerPriorityCommand: Exiting (5).\n")));
goto Exit;
}
//
// Lower the priority and set. Keep lowering it until we fail. Remember
// that we're supposed to lower it as far as it will go.
//
Status = STATUS_SUCCESS;
LoopCounter = 0;
while( (Status == STATUS_SUCCESS) &&
(BasicInfo.BasePriority > 0) ) {
BasicInfo.BasePriority--;
Status = ZwSetInformationProcess( ProcessHandle,
ProcessBasePriority,
&BasicInfo.BasePriority,
sizeof(BasicInfo.BasePriority) );
//
// Only treat a failure on the first time through.
//
if( (!NT_SUCCESS(Status)) && (LoopCounter == 0) ) {
SacPutSimpleMessage(SAC_LOWERPRI_FAILURE);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLowerPriorityCommand: Exiting (6).\n")));
goto Exit;
}
LoopCounter++;
}
//
// All done.
//
SacPutSimpleMessage(SAC_LOWERPRI_SUCCESS);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLowerPriorityCommand: Exiting.\n")));
Exit:
if (ProcessHandle != NULL) {
ZwClose(ProcessHandle);
}
return;
}
VOID
DoRaisePriorityCommand(
PUCHAR InputLine
)
/*++
Routine Description:
This routine raises the priority of a process up one increment.
Arguments:
InputLine - The users input line to parse.
Return Value:
None.
--*/
{
NTSTATUS Status;
PUCHAR pch = InputLine;
PUCHAR pchTmp;
ULONG ProcessId;
CLIENT_ID ClientId;
OBJECT_ATTRIBUTES ObjectAttributes;
HANDLE ProcessHandle = NULL;
PROCESS_BASIC_INFORMATION BasicInfo;
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoRaisePriorityCommand: Entering.\n")));
//
// Get the global buffer started so that we have room for error messages.
//
if (GlobalBuffer == NULL) {
GlobalBuffer = ALLOCATE_POOL(MEMORY_INCREMENT, GENERAL_POOL_TAG);
if (GlobalBuffer == NULL) {
SacPutSimpleMessage(SAC_NO_MEMORY);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoRaisePriorityCommand: Exiting (1).\n")));
goto Exit;
}
GlobalBufferSize = MEMORY_INCREMENT;
}
//
// Skip to next argument (process id)
//
pch += (sizeof(RAISE_COMMAND_STRING) - sizeof(UCHAR));
SKIP_WHITESPACE(pch);
if (!IS_NUMBER(*pch)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoRaisePriorityCommand: Exiting (2).\n")));
goto Exit;
}
pchTmp = pch;
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
if (*pchTmp != '\0') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoRaisePriorityCommand: Exiting (3).\n")));
return;
}
ProcessId = atoi((LPCSTR)pch);
//
// See if the process even exists.
//
InitializeObjectAttributes(&ObjectAttributes,
NULL,
OBJ_CASE_INSENSITIVE,
NULL,
NULL
);
ClientId.UniqueProcess = (HANDLE)UlongToPtr(ProcessId);
ClientId.UniqueThread = NULL;
Status = ZwOpenProcess(&ProcessHandle,
MAXIMUM_ALLOWED,
&ObjectAttributes,
&ClientId
);
if (!NT_SUCCESS(Status)) {
SacPutSimpleMessage(SAC_RAISEPRI_FAILURE);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoRaisePriorityCommand: Exiting (4).\n")));
goto Exit;
}
//
// Query information on the process.
//
Status = ZwQueryInformationProcess( ProcessHandle,
ProcessBasicInformation,
&BasicInfo,
sizeof(PROCESS_BASIC_INFORMATION),
NULL );
if (!NT_SUCCESS(Status)) {
SacPutSimpleMessage(SAC_LOWERPRI_FAILURE);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoRaisePriorityCommand: Exiting (5).\n")));
goto Exit;
}
//
// Lower the priority and set. Keep lowering it until we fail. Remember
// that we're supposed to lower it as far as it will go.
//
BasicInfo.BasePriority++;
Status = ZwSetInformationProcess( ProcessHandle,
ProcessBasePriority,
&BasicInfo.BasePriority,
sizeof(BasicInfo.BasePriority) );
//
// Only treat a failure on the first time through.
//
if( !NT_SUCCESS(Status) ) {
SacPutSimpleMessage(SAC_LOWERPRI_FAILURE);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoRaisePriorityCommand: Exiting (6).\n")));
goto Exit;
}
//
// All done.
//
SacPutSimpleMessage(SAC_RAISEPRI_SUCCESS);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoRaisePriorityCommand: Exiting.\n")));
Exit:
if (ProcessHandle != NULL) {
ZwClose(ProcessHandle);
}
return;
}
VOID
DoLimitMemoryCommand(
PUCHAR InputLine
)
/*++
Routine Description:
This routine reduces the memory working set of a process to the values in
the input line given.
Arguments:
InputLine - The users input line to parse.
Return Value:
None.
--*/
{
NTSTATUS Status;
NTSTATUS StatusOfJobObject;
PUCHAR pch = InputLine;
PUCHAR pchTmp;
ULONG ProcessId;
ULONG MemoryLimit;
CLIENT_ID ClientId;
OBJECT_ATTRIBUTES ObjectAttributes;
UNICODE_STRING UnicodeString;
HANDLE JobHandle = NULL;
HANDLE ProcessHandle = NULL;
JOBOBJECT_EXTENDED_LIMIT_INFORMATION ProposedLimits;
ULONG ReturnedLength;
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLimitMemoryCommand: Entering.\n")));
//
// Get the global buffer started so that we have room for error messages.
//
if (GlobalBuffer == NULL) {
GlobalBuffer = ALLOCATE_POOL(MEMORY_INCREMENT, GENERAL_POOL_TAG);
if (GlobalBuffer == NULL) {
SacPutSimpleMessage(SAC_NO_MEMORY);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLimitMemoryCommand: Exiting (1).\n")));
goto Exit;
}
GlobalBufferSize = MEMORY_INCREMENT;
}
//
// Get process id
//
pch += (sizeof(LIMIT_COMMAND_STRING) - sizeof(UCHAR));
SKIP_WHITESPACE(pch);
if (!IS_NUMBER(*pch)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLimitMemoryCommand: Exiting (2).\n")));
goto Exit;
}
pchTmp = pch;
SKIP_NUMBERS(pchTmp);
if (!IS_WHITESPACE(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLimitMemoryCommand: Exiting (3).\n")));
return;
}
*pchTmp = '\0';
pchTmp++;
ProcessId = atoi((LPCSTR)pch);
//
// Now get memory limit
//
SKIP_WHITESPACE(pchTmp);
if (!IS_NUMBER(*pchTmp)) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLimitMemoryCommand: Exiting (4).\n")));
return;
}
pch = pchTmp;
SKIP_NUMBERS(pchTmp);
SKIP_WHITESPACE(pchTmp);
if (*pchTmp != '\0') {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLimitMemoryCommand: Exiting (5).\n")));
return;
}
MemoryLimit = atoi((LPCSTR)pch);
if (MemoryLimit == 0) {
SacPutSimpleMessage(SAC_INVALID_PARAMETER);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLimitMemoryCommand: Exiting (6).\n")));
goto Exit;
}
//
// Create the name for the job object
//
swprintf((PWCHAR)GlobalBuffer, L"\\BaseNamedObjects\\SAC%d", ProcessId);
//
// Try and open the existing job object
//
RtlInitUnicodeString(&UnicodeString, (PWCHAR)GlobalBuffer);
InitializeObjectAttributes(&ObjectAttributes,
&UnicodeString,
OBJ_CASE_INSENSITIVE,
NULL,
NULL
);
StatusOfJobObject = ZwOpenJobObject(&JobHandle, MAXIMUM_ALLOWED, &ObjectAttributes);
//
// Try to open the process
//
InitializeObjectAttributes(&ObjectAttributes,
NULL,
OBJ_CASE_INSENSITIVE,
NULL,
NULL
);
ClientId.UniqueProcess = (HANDLE)UlongToPtr(ProcessId);
ClientId.UniqueThread = NULL;
Status = ZwOpenProcess(&ProcessHandle,
MAXIMUM_ALLOWED,
&ObjectAttributes,
&ClientId
);
if (!NT_SUCCESS(Status) && !NT_SUCCESS(StatusOfJobObject)) {
SacPutSimpleMessage(SAC_LOWERMEM_FAILURE);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLimitMemoryCommand: Exiting (7).\n")));
goto Exit;
}
if (NT_SUCCESS(Status) &&
NT_SUCCESS(StatusOfJobObject) &&
(ZwIsProcessInJob(ProcessHandle, JobHandle) != STATUS_PROCESS_IN_JOB)) {
SacPutSimpleMessage(SAC_DUPLICATE_PROCESS);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLimitMemoryCommand: Exiting (8).\n")));
goto Exit;
}
if (!NT_SUCCESS(StatusOfJobObject)) {
//
// Now try and create a job object to wrap around this process.
//
InitializeObjectAttributes(&ObjectAttributes,
&UnicodeString,
OBJ_CASE_INSENSITIVE | OBJ_PERMANENT,
NULL,
NULL
);
Status = ZwCreateJobObject(&JobHandle, MAXIMUM_ALLOWED, &ObjectAttributes);
if (!NT_SUCCESS(Status)) {
SacPutSimpleMessage(SAC_LOWERMEM_FAILURE);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
ZwClose(ProcessHandle);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLimitMemoryCommand: Exiting (8b).\n")));
goto Exit;
}
//
// Assign the process to this new job object.
//
Status = ZwAssignProcessToJobObject(JobHandle, ProcessHandle);
ZwClose(ProcessHandle);
if (!NT_SUCCESS(Status)) {
SacPutSimpleMessage(SAC_LOWERMEM_FAILURE);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLimitMemoryCommand: Exiting (9).\n")));
goto Exit;
}
}
//
// Get the current set of limits
//
Status = ZwQueryInformationJobObject(JobHandle,
JobObjectExtendedLimitInformation,
&ProposedLimits,
sizeof(JOBOBJECT_EXTENDED_LIMIT_INFORMATION),
&ReturnedLength
);
if (!NT_SUCCESS(Status)) {
SacPutSimpleMessage(SAC_LOWERMEM_FAILURE);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLimitMemoryCommand: Exiting (10).\n")));
goto Exit;
}
//
// Change the memory limits
//
ProposedLimits.BasicLimitInformation.LimitFlags |= JOB_OBJECT_LIMIT_PROCESS_MEMORY;
ProposedLimits.ProcessMemoryLimit = MemoryLimit * 1024 * 1024;
ProposedLimits.BasicLimitInformation.LimitFlags |= JOB_OBJECT_LIMIT_JOB_MEMORY;
ProposedLimits.JobMemoryLimit = MemoryLimit * 1024 * 1024;
Status = ZwSetInformationJobObject(JobHandle,
JobObjectExtendedLimitInformation,
&ProposedLimits,
sizeof(JOBOBJECT_EXTENDED_LIMIT_INFORMATION)
);
if (!NT_SUCCESS(Status)) {
SacPutSimpleMessage(SAC_LOWERMEM_FAILURE);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLimitMemoryCommand: Exiting (11).\n")));\
goto Exit;
}
//
// All done.
//
SacPutSimpleMessage(SAC_LOWERMEM_SUCCESS);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoLimitMemoryCommand: Exiting.\n")));
Exit:
if (JobHandle != NULL) {
ZwClose(JobHandle);
}
if (ProcessHandle != NULL) {
ZwClose(ProcessHandle);
}
return;
}
VOID
DoRebootCommand(
BOOLEAN Reboot
)
/*++
Routine Description:
This routine does a shutdown and an optional reboot.
Arguments:
Reboot - To Reboot or not to reboot, that is the question answered here.
Return Value:
None.
--*/
{
#define RESTART_DELAY_TIME (60)
NTSTATUS Status;
LARGE_INTEGER TickCount;
LARGE_INTEGER ElapsedTime;
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoRebootCommand: Entering.\n")));
//
// If we attempt to shutdown the system before smss.exe has initialized
// properly, and if there's no debugger, the machine may bugcheck. Figuring
// out exactly what's going on is difficult because if we put a debugger on
// the machine, he won't repro the problem. To work around this, we're going
// to make sure the machine has had time to initialize before we tell it to
// restart/shutdown.
//
// Elapsed TickCount
KeQueryTickCount( &TickCount );
// ElapsedTime in seconds.
ElapsedTime.QuadPart = (TickCount.QuadPart)/(10000000/KeQueryTimeIncrement());
if( ElapsedTime.QuadPart < RESTART_DELAY_TIME ) {
KEVENT Event;
SacPutSimpleMessage(Reboot ? SAC_PREPARE_RESTART : SAC_PREPARE_SHUTDOWN);
// wait until the machine has been up for at least RESTART_DELAY_TIME seconds.
KeInitializeEvent( &Event,
SynchronizationEvent,
FALSE );
ElapsedTime.QuadPart = Int32x32To64((LONG)((RESTART_DELAY_TIME-ElapsedTime.LowPart)*10000), // milliseconds until we reach RESTART_DELAY_TIME
-1000);
KeWaitForSingleObject((PVOID)&Event, Executive, KernelMode, FALSE, &ElapsedTime);
}
Status = NtShutdownSystem(Reboot ? ShutdownReboot : ShutdownPowerOff);
//
// Get the global buffer started so that we have room for error messages.
//
if (GlobalBuffer == NULL) {
GlobalBuffer = ALLOCATE_POOL(MEMORY_INCREMENT, GENERAL_POOL_TAG);
if (GlobalBuffer == NULL) {
SacPutSimpleMessage(SAC_NO_MEMORY);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoRebootCommand: Exiting (1).\n")));
return;
}
GlobalBufferSize = MEMORY_INCREMENT;
}
SacPutSimpleMessage(Reboot ? SAC_RESTART_FAILURE : SAC_SHUTDOWN_FAILURE);
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoRebootCommand: Exiting.\n")));
}
VOID
DoCrashCommand(
VOID
)
/*++
Routine Description:
This routine does a shutdown and bugcheck.
Arguments:
None.
Return Value:
None.
--*/
{
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoCrashCommand: Entering.\n")));
//
// this call does not return
//
KeBugCheckEx(MANUALLY_INITIATED_CRASH, 0, 0, 0, 0);
// SacPutSimpleMessage( SAC_CRASHDUMP_FAILURE );
// IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoCrashCommand: Exiting.\n")));
}
VOID
DoTlistCommand(
VOID
)
/*++
Routine Description:
This routine gets a Tlist and displays it.
Arguments:
None.
Return Value:
None.
--*/
{
NTSTATUS Status;
ULONG DataLength;
PVOID NewBuffer;
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoTlistCommand: Entering.\n")));
if (GlobalBuffer == NULL) {
GlobalBuffer = ALLOCATE_POOL(MEMORY_INCREMENT, GENERAL_POOL_TAG);
if (GlobalBuffer == NULL) {
SacPutSimpleMessage(SAC_NO_MEMORY);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoTlistCommand: Exiting.\n")));
return;
}
GlobalBufferSize = MEMORY_INCREMENT;
}
RetryTList:
Status = GetTListInfo((PSAC_RSP_TLIST)GlobalBuffer,
(LONG)GlobalBufferSize,
&DataLength
);
if ((Status == STATUS_NO_MEMORY) ||
(Status == STATUS_INFO_LENGTH_MISMATCH)) {
//
// Try to get more memory, if not available, then just fail without out of memory error.
//
NewBuffer = ALLOCATE_POOL(GlobalBufferSize + MEMORY_INCREMENT, GENERAL_POOL_TAG);
if (NewBuffer != NULL) {
FREE_POOL(&GlobalBuffer);
GlobalBuffer = NewBuffer;
GlobalBufferSize += MEMORY_INCREMENT;
goto RetryTList;
}
SacPutSimpleMessage(SAC_NO_MEMORY);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoTlistCommand: Exiting.\n")));
return;
}
if (NT_SUCCESS(Status)) {
PrintTListInfo((PSAC_RSP_TLIST)GlobalBuffer);
} else {
SacPutSimpleMessage( SAC_TLIST_FAILURE );
swprintf((PWSTR)GlobalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)GlobalBuffer);
}
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoTlistCommand: Exiting.\n")));
}
NTSTATUS
GetTListInfo(
OUT PSAC_RSP_TLIST ResponseBuffer,
IN LONG ResponseBufferSize,
OUT PULONG ResponseDataSize
)
/*++
Routine Description:
This routine gets all the information necessary for the TList command.
Arguments:
ResponseBuffer - The buffer to put the results into.
ResponseBufferSize - The length of the above buffer.
ResponseDataSize - The length of the resulting buffer.
Return Value:
None.
--*/
{
NTSTATUS Status;
PSYSTEM_PAGEFILE_INFORMATION PageFileInfo;
PUCHAR DataBuffer;
PUCHAR StartProcessInfo;
LONG CurrentBufferSize;
ULONG ReturnLength;
ULONG TotalOffset;
ULONG OffsetIncrement = 0;
PSYSTEM_PROCESS_INFORMATION ProcessInfo;
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Entering.\n")));
*ResponseDataSize = 0;
if (ResponseBufferSize < sizeof(ResponseBuffer)) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, no memory.\n")));
return(STATUS_NO_MEMORY);
}
DataBuffer = (PUCHAR)(ResponseBuffer + 1);
CurrentBufferSize = ResponseBufferSize - sizeof(SAC_RSP_TLIST);
if (CurrentBufferSize < 0) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, no memory (2).\n")));
return STATUS_NO_MEMORY;
}
//
// Get system-wide information
//
Status = ZwQuerySystemInformation(SystemTimeOfDayInformation,
&(ResponseBuffer->TimeOfDayInfo),
sizeof(SYSTEM_TIMEOFDAY_INFORMATION),
NULL
);
if (!NT_SUCCESS(Status)) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, error.\n")));
return(Status);
}
Status = ZwQuerySystemInformation(SystemBasicInformation,
&(ResponseBuffer->BasicInfo),
sizeof(SYSTEM_BASIC_INFORMATION),
NULL
);
if (!NT_SUCCESS(Status)) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, error(2).\n")));
return(Status);
}
//
// Get pagefile information
//
PageFileInfo = (PSYSTEM_PAGEFILE_INFORMATION)DataBuffer;
Status = ZwQuerySystemInformation(SystemPageFileInformation,
PageFileInfo,
CurrentBufferSize,
&ReturnLength
);
if (NT_SUCCESS(Status) && (ReturnLength != 0)) {
ResponseBuffer->PagefileInfoOffset = ResponseBufferSize - CurrentBufferSize;
CurrentBufferSize -= ReturnLength;
DataBuffer += ReturnLength;
if (CurrentBufferSize < 0) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, no memory(3).\n")));
return STATUS_NO_MEMORY;
}
//
// Go thru each pagefile and fixup the names...
//
for (; ; ) {
if (PageFileInfo->PageFileName.Length > CurrentBufferSize) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, error(3).\n")));
return(STATUS_INFO_LENGTH_MISMATCH);
}
RtlCopyMemory(DataBuffer,
(PUCHAR)(PageFileInfo->PageFileName.Buffer),
PageFileInfo->PageFileName.Length
);
PageFileInfo->PageFileName.Buffer = (PWSTR)DataBuffer;
DataBuffer += PageFileInfo->PageFileName.Length;
CurrentBufferSize -= PageFileInfo->PageFileName.Length;
if (CurrentBufferSize < 0) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, no memory (4).\n")));
return STATUS_NO_MEMORY;
}
if (PageFileInfo->NextEntryOffset == 0) {
break;
}
PageFileInfo = (PSYSTEM_PAGEFILE_INFORMATION)((PCHAR)PageFileInfo + PageFileInfo->NextEntryOffset);
}
} else if (((ULONG)CurrentBufferSize) < ReturnLength) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, no memory(5).\n")));
return(STATUS_NO_MEMORY);
} else {
//
// Either failure or no paging file present.
//
ResponseBuffer->PagefileInfoOffset = 0;
}
//
// Get process information
//
Status = ZwQuerySystemInformation(SystemFileCacheInformation,
&(ResponseBuffer->FileCache),
sizeof(ResponseBuffer->FileCache),
NULL
);
if (!NT_SUCCESS(Status)) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, error(4).\n")));
return(Status);
}
Status = ZwQuerySystemInformation(SystemPerformanceInformation,
&(ResponseBuffer->PerfInfo),
sizeof(ResponseBuffer->PerfInfo),
NULL
);
if (!NT_SUCCESS(Status)) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, error(5).\n")));
return(Status);
}
//
// Realign DataBuffer for the next query
//
DataBuffer = ALIGN_UP_POINTER(DataBuffer, SYSTEM_PROCESS_INFORMATION);
CurrentBufferSize = (ULONG)(ResponseBufferSize - (((ULONG_PTR)DataBuffer) - ((ULONG_PTR)ResponseBuffer)));
if (CurrentBufferSize < 0) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, no memory (6).\n")));
return STATUS_NO_MEMORY;
}
Status = ZwQuerySystemInformation(SystemProcessInformation,
DataBuffer,
CurrentBufferSize,
&ReturnLength
);
if (!NT_SUCCESS(Status)) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, error(6).\n")));
return(Status);
}
StartProcessInfo = DataBuffer;
ResponseBuffer->ProcessInfoOffset = ResponseBufferSize - CurrentBufferSize;
DataBuffer += ReturnLength;
CurrentBufferSize -= ReturnLength;
if (CurrentBufferSize < 0) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, no memory(7).\n")));
return STATUS_NO_MEMORY;
}
OffsetIncrement = 0;
TotalOffset = 0;
ProcessInfo = (PSYSTEM_PROCESS_INFORMATION)StartProcessInfo;
do {
//
// We have to take the name of each process and pack the UNICODE_STRING
// buffer in our buffer so it doesn't collide with the subsequent data
//
if (ProcessInfo->ImageName.Buffer) {
if (CurrentBufferSize < ProcessInfo->ImageName.Length ) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, error(7).\n")));
return(STATUS_INFO_LENGTH_MISMATCH);
}
RtlCopyMemory(DataBuffer, (PUCHAR)(ProcessInfo->ImageName.Buffer), ProcessInfo->ImageName.Length);
ProcessInfo->ImageName.Buffer = (PWSTR)DataBuffer;
DataBuffer += ProcessInfo->ImageName.Length;
CurrentBufferSize -= ProcessInfo->ImageName.Length;
if (CurrentBufferSize < 0) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting, no memory(8).\n")));
return STATUS_NO_MEMORY;
}
}
if (ProcessInfo->NextEntryOffset == 0) {
break;
}
OffsetIncrement = ProcessInfo->NextEntryOffset;
TotalOffset += OffsetIncrement;
ProcessInfo = (PSYSTEM_PROCESS_INFORMATION)&(StartProcessInfo[TotalOffset]);
} while( OffsetIncrement != 0 );
*ResponseDataSize = (ULONG)(ResponseBufferSize - CurrentBufferSize);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC GetTlistInfo: Exiting.\n")));
return STATUS_SUCCESS;
}
VOID
PrintTListInfo(
IN PSAC_RSP_TLIST Buffer
)
/*++
Routine Description:
This routine prints TList info to the headless terminal.
Arguments:
Buffer - The buffer with the results.
Return Value:
None.
--*/
{
LARGE_INTEGER Time;
TIME_FIELDS UserTime;
TIME_FIELDS KernelTime;
TIME_FIELDS UpTime;
ULONG TotalOffset;
ULONG OffsetIncrement = 0;
SIZE_T SumCommit;
SIZE_T SumWorkingSet;
PSYSTEM_PROCESS_INFORMATION ProcessInfo;
PSYSTEM_THREAD_INFORMATION ThreadInfo;
PSYSTEM_PAGEFILE_INFORMATION PageFileInfo;
ULONG i;
PUCHAR ProcessInfoStart;
PUCHAR BufferStart = (PUCHAR)Buffer;
ULONG LineNumber = 0;
WCHAR OutputBuffer[200]; // should never be more than 80, but just to be safe....
UNICODE_STRING Process;
BOOLEAN Stop;
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC PrintTlistInfo: Entering.\n")));
Time.QuadPart = Buffer->TimeOfDayInfo.CurrentTime.QuadPart - Buffer->TimeOfDayInfo.BootTime.QuadPart;
RtlTimeToElapsedTimeFields(&Time, &UpTime);
swprintf( OutputBuffer,
GetMessage( SAC_TLIST_HEADER1_FORMAT ),
Buffer->BasicInfo.NumberOfPhysicalPages * (Buffer->BasicInfo.PageSize / 1024),
UpTime.Day,
UpTime.Hour,
UpTime.Minute,
UpTime.Second,
UpTime.Milliseconds
);
SacPutUnicodeString(OutputBuffer);
LineNumber += 2;
PageFileInfo = (PSYSTEM_PAGEFILE_INFORMATION)(BufferStart + Buffer->PagefileInfoOffset);
//
// Print out the page file information.
//
if (Buffer->PagefileInfoOffset == 0) {
SacPutSimpleMessage(SAC_TLIST_NOPAGEFILE);
LineNumber++;
} else {
for (; ; ) {
//
// ensure that the OutputBuffer is big enough to hold the string
//
if (((wcslen(GetMessage(SAC_TLIST_PAGEFILE_NAME)) +
wcslen((PWSTR)&(PageFileInfo->PageFileName))) * sizeof(WCHAR)) > (sizeof(OutputBuffer)-2)) {
//
// Since we don't expect the pagefilename to be > 80 chars, we should stop and
// take a look at the name if this does happen
//
ASSERT(0);
//
// give up trying to print page file info
//
break;
}
swprintf( OutputBuffer,
GetMessage(SAC_TLIST_PAGEFILE_NAME),
&PageFileInfo->PageFileName);
SacPutUnicodeString(OutputBuffer);
LineNumber++;
swprintf( OutputBuffer,
GetMessage(SAC_TLIST_PAGEFILE_DATA),
PageFileInfo->TotalSize * (Buffer->BasicInfo.PageSize/1024),
PageFileInfo->TotalInUse * (Buffer->BasicInfo.PageSize/1024),
PageFileInfo->PeakUsage * (Buffer->BasicInfo.PageSize/1024)
);
SacPutUnicodeString(OutputBuffer);
LineNumber++;
if (PageFileInfo->NextEntryOffset == 0) {
break;
}
PageFileInfo = (PSYSTEM_PAGEFILE_INFORMATION)((PCHAR)PageFileInfo + PageFileInfo->NextEntryOffset);
}
}
//
// display pmon style process output, then detailed output that includes
// per thread stuff
//
if (Buffer->ProcessInfoOffset == 0) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC PrintTlistInfo: Exiting (1).\n")));
return;
}
OffsetIncrement = 0;
TotalOffset = 0;
SumCommit = 0;
SumWorkingSet = 0;
ProcessInfo = (PSYSTEM_PROCESS_INFORMATION)(BufferStart + Buffer->ProcessInfoOffset);
ProcessInfoStart = (PUCHAR)ProcessInfo;
do {
SumCommit += ProcessInfo->PrivatePageCount / 1024;
SumWorkingSet += ProcessInfo->WorkingSetSize / 1024;
OffsetIncrement = ProcessInfo->NextEntryOffset;
TotalOffset += OffsetIncrement;
ProcessInfo = (PSYSTEM_PROCESS_INFORMATION)(ProcessInfoStart +TotalOffset);
} while( OffsetIncrement != 0 );
SumWorkingSet += Buffer->FileCache.CurrentSize/1024;
if (LineNumber > 17) {
PutMore(&Stop);
if (Stop) {
return;
}
LineNumber = 0;
}
swprintf(OutputBuffer,
GetMessage(SAC_TLIST_MEMORY1_DATA),
Buffer->BasicInfo.NumberOfPhysicalPages * (Buffer->BasicInfo.PageSize/1024),
Buffer->PerfInfo.AvailablePages * (Buffer->BasicInfo.PageSize/1024),
SumWorkingSet,
(Buffer->PerfInfo.ResidentSystemCodePage + Buffer->PerfInfo.ResidentSystemDriverPage) *
(Buffer->BasicInfo.PageSize/1024),
(Buffer->PerfInfo.ResidentPagedPoolPage) * (Buffer->BasicInfo.PageSize/1024)
);
SacPutUnicodeString(OutputBuffer);
LineNumber += 2;
if (LineNumber > 18) {
PutMore(&Stop);
if (Stop) {
return;
}
LineNumber = 0;
}
swprintf(OutputBuffer,
GetMessage(SAC_TLIST_MEMORY2_DATA),
Buffer->PerfInfo.CommittedPages * (Buffer->BasicInfo.PageSize/1024),
SumCommit,
Buffer->PerfInfo.CommitLimit * (Buffer->BasicInfo.PageSize/1024),
Buffer->PerfInfo.PeakCommitment * (Buffer->BasicInfo.PageSize/1024),
Buffer->PerfInfo.NonPagedPoolPages * (Buffer->BasicInfo.PageSize/1024),
Buffer->PerfInfo.PagedPoolPages * (Buffer->BasicInfo.PageSize/1024)
);
SacPutUnicodeString(OutputBuffer);
LineNumber++;
if (LineNumber > 18) {
PutMore(&Stop);
if (Stop) {
return;
}
LineNumber = 0;
}
SacPutSimpleMessage(SAC_ENTER);
PutMore(&Stop);
if (Stop) {
return;
}
LineNumber = 0;
SacPutSimpleMessage( SAC_TLIST_PROCESS1_HEADER );
LineNumber++;
swprintf(OutputBuffer,
GetMessage( SAC_TLIST_PROCESS2_HEADER ),
Buffer->FileCache.CurrentSize/1024,
Buffer->FileCache.PageFaultCount );
SacPutUnicodeString(OutputBuffer);
LineNumber++;
OffsetIncrement = 0;
TotalOffset = 0;
ProcessInfo = (PSYSTEM_PROCESS_INFORMATION)(BufferStart + Buffer->ProcessInfoOffset);
do {
RtlTimeToElapsedTimeFields(&ProcessInfo->UserTime, &UserTime);
RtlTimeToElapsedTimeFields(&ProcessInfo->KernelTime, &KernelTime);
Process.Buffer = NULL;
if (ProcessInfo->UniqueProcessId == 0) {
RtlInitUnicodeString( &Process, L"Idle Process" );
} else if (!ProcessInfo->ImageName.Buffer) {
RtlInitUnicodeString( &Process, L"System" );
}
swprintf(OutputBuffer,
GetMessage( SAC_TLIST_PROCESS1_DATA ),
UserTime.Hour,
UserTime.Minute,
UserTime.Second,
UserTime.Milliseconds,
KernelTime.Hour,
KernelTime.Minute,
KernelTime.Second,
KernelTime.Milliseconds,
ProcessInfo->WorkingSetSize / 1024,
ProcessInfo->PageFaultCount,
ProcessInfo->PrivatePageCount / 1024,
ProcessInfo->BasePriority,
ProcessInfo->HandleCount,
ProcessInfo->NumberOfThreads,
HandleToUlong(ProcessInfo->UniqueProcessId),
Process.Buffer ? &Process : &ProcessInfo->ImageName
);
SacPutUnicodeString(OutputBuffer);
LineNumber++;
if( wcslen( OutputBuffer ) >= 80 ) {
//
// We line-wrapped, so include the additional line in our running-count.
//
LineNumber++;
}
//
// update the position in the process list before we check to see if we need
// to prompt for more. This way, if we are done, we don't prompt.
//
OffsetIncrement = ProcessInfo->NextEntryOffset;
TotalOffset += OffsetIncrement;
ProcessInfo = (PSYSTEM_PROCESS_INFORMATION)(ProcessInfoStart + TotalOffset);
//
// if there are more records and we have displayed a screen's worth of data
// Prompt for more and reset the line counter
//
if (( OffsetIncrement != 0 ) && (LineNumber > 18)) {
PutMore(&Stop);
if (Stop) {
return;
}
LineNumber = 0;
if (GlobalPagingNeeded) {
SacPutSimpleMessage( SAC_TLIST_PROCESS1_HEADER );
}
LineNumber++;
}
} while( OffsetIncrement != 0 );
if (!GlobalDoThreads) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC PrintTlistInfo: Exiting (2).\n")));
return;
}
//
// Beginning of normal old style pstat output
//
TotalOffset = 0;
OffsetIncrement = 0;
ProcessInfo = (PSYSTEM_PROCESS_INFORMATION)(BufferStart + Buffer->ProcessInfoOffset);
PutMore(&Stop);
if (Stop) {
return;
}
LineNumber = 0;
SacPutSimpleMessage(SAC_ENTER);
LineNumber++;
do {
Process.Buffer = NULL;
if (ProcessInfo->UniqueProcessId == 0) {
RtlInitUnicodeString( &Process, L"Idle Process" );
} else if (!ProcessInfo->ImageName.Buffer) {
RtlInitUnicodeString( &Process, L"System" );
}
swprintf(OutputBuffer,
GetMessage(SAC_TLIST_PSTAT_HEADER),
HandleToUlong(ProcessInfo->UniqueProcessId),
ProcessInfo->BasePriority,
ProcessInfo->HandleCount,
ProcessInfo->PageFaultCount,
ProcessInfo->WorkingSetSize / 1024,
Process.Buffer ? &Process : &ProcessInfo->ImageName
);
SacPutUnicodeString(OutputBuffer);
LineNumber++;
if( wcslen( OutputBuffer ) >= 80 ) {
//
// We line-wrapped, so include the additional line in our running-count.
//
LineNumber++;
}
if (LineNumber > 18) {
PutMore(&Stop);
if (Stop) {
return;
}
LineNumber = 0;
}
i = 0;
ThreadInfo = (PSYSTEM_THREAD_INFORMATION)(ProcessInfo + 1);
if (ProcessInfo->NumberOfThreads) {
if ((LineNumber < 18) || !GlobalPagingNeeded) {
SacPutSimpleMessage( SAC_TLIST_PSTAT_THREAD_HEADER );
LineNumber++;
} else {
PutMore(&Stop);
if (Stop) {
return;
}
LineNumber = 0;
}
}
while (i < ProcessInfo->NumberOfThreads) {
RtlTimeToElapsedTimeFields ( &ThreadInfo->UserTime, &UserTime);
RtlTimeToElapsedTimeFields ( &ThreadInfo->KernelTime, &KernelTime);
swprintf(OutputBuffer,
GetMessage( SAC_TLIST_PSTAT_THREAD_DATA ),
ProcessInfo->UniqueProcessId == 0 ? 0 : HandleToUlong(ThreadInfo->ClientId.UniqueThread),
ProcessInfo->UniqueProcessId == 0 ? 0 : ThreadInfo->Priority,
ThreadInfo->ContextSwitches,
ProcessInfo->UniqueProcessId == 0 ? 0 : ThreadInfo->StartAddress,
UserTime.Hour,
UserTime.Minute,
UserTime.Second,
UserTime.Milliseconds,
KernelTime.Hour,
KernelTime.Minute,
KernelTime.Second,
KernelTime.Milliseconds,
StateTable[ThreadInfo->ThreadState],
(ThreadInfo->ThreadState == 5) ? WaitTable[ThreadInfo->WaitReason] : Empty
);
SacPutUnicodeString(OutputBuffer);
LineNumber++;
if( wcslen( OutputBuffer ) >= 80 ) {
//
// We line-wrapped, so include the additional line in our running-count.
//
LineNumber++;
}
if (LineNumber > 18) {
PutMore(&Stop);
if (Stop) {
return;
}
LineNumber = 0;
if (GlobalPagingNeeded) {
SacPutSimpleMessage( SAC_TLIST_PSTAT_THREAD_HEADER );
}
LineNumber++;
}
ThreadInfo += 1;
i += 1;
}
OffsetIncrement = ProcessInfo->NextEntryOffset;
TotalOffset += OffsetIncrement;
ProcessInfo = (PSYSTEM_PROCESS_INFORMATION)(ProcessInfoStart + TotalOffset);
SacPutSimpleMessage(SAC_ENTER);
LineNumber++;
if (LineNumber > 18) {
PutMore(&Stop);
if (Stop) {
return;
}
LineNumber = 0;
}
} while( OffsetIncrement != 0 );
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC PrintTlistInfo: Exiting.\n")));
}
VOID
PutMore(
OUT PBOOLEAN Stop
)
{
PHEADLESS_RSP_GET_LINE Response;
UCHAR Buffer[20];
SIZE_T Length;
LARGE_INTEGER WaitTime;
NTSTATUS Status;
ASSERT(sizeof(HEADLESS_RSP_GET_LINE) <= (sizeof(UCHAR) * 20));
if (GlobalPagingNeeded) {
WaitTime.QuadPart = Int32x32To64((LONG)100, -1000); // 100ms from now.
SacPutSimpleMessage( SAC_MORE_MESSAGE );
Response = (PHEADLESS_RSP_GET_LINE)&(Buffer[0]);
Length = sizeof(UCHAR) * 20;
Status = HeadlessDispatch(HeadlessCmdGetLine,
NULL,
0,
Response,
&Length
);
while (NT_SUCCESS(Status) && !Response->LineComplete) {
KeDelayExecutionThread(KernelMode, FALSE, &WaitTime);
Length = sizeof(UCHAR) * 20;
Status = HeadlessDispatch(HeadlessCmdGetLine,
NULL,
0,
Response,
&Length
);
}
if (Response->Buffer[0] == 0x3) { // Control-C
*Stop = TRUE;
} else {
*Stop = FALSE;
}
//
// Drain any remaining buffered input
//
Length = sizeof(UCHAR) * 20;
Status = HeadlessDispatch(HeadlessCmdGetLine,
NULL,
0,
Response,
&Length
);
while (NT_SUCCESS(Status) && Response->LineComplete) {
Length = sizeof(UCHAR) * 20;
Status = HeadlessDispatch(HeadlessCmdGetLine,
NULL,
0,
Response,
&Length
);
}
} else {
*Stop = FALSE;
}
}
NTSTATUS
CallQueryIPIOCTL(
HANDLE IpDeviceHandle,
PKEVENT Event,
HANDLE EventHandle,
IO_STATUS_BLOCK *IoStatusBlock,
PVOID InputBuffer,
ULONG InputBufferSize,
PVOID OutputBuffer,
ULONG OutputBufferSize,
BOOLEAN PrintToTerminal,
BOOLEAN *putPrompt
)
{
NTSTATUS Status;
LARGE_INTEGER TimeOut;
//
// Submit the IOCTL
//
Status = NtDeviceIoControlFile(IpDeviceHandle,
EventHandle,
NULL,
NULL,
IoStatusBlock,
IOCTL_TCP_QUERY_INFORMATION_EX,
InputBuffer,
InputBufferSize,
OutputBuffer,
OutputBufferSize);
if (Status == STATUS_PENDING) {
//
// Wait up to 30 seconds for it to finish
//
if (PrintToTerminal != FALSE) {
SacPutSimpleMessage( SAC_ENTER );
SacPutSimpleMessage( SAC_RETRIEVING_IPADDR );
if (putPrompt) {
*putPrompt= TRUE;
}
}
TimeOut.QuadPart = Int32x32To64((LONG)30000, -1000);
Status = KeWaitForSingleObject((PVOID)Event, Executive, KernelMode, FALSE, &TimeOut);
if (NT_SUCCESS(Status)) {
Status = IoStatusBlock->Status;
}
}
return(Status);
}
VOID
DoGetNetInfo(
BOOLEAN PrintToTerminal
)
/*++
Routine Description:
This routine attempts to get and print every IP net number and its IP
address.
Arguments:
PrintToTerminal - Determines if the IP information is printed ( == TRUE )
Or sent to the kernel ( == FALSE )
Return Value:
None.
--*/
{
NTSTATUS Status;
HANDLE Handle;
ULONG i;
IO_STATUS_BLOCK IoStatusBlock;
UNICODE_STRING UnicodeString;
OBJECT_ATTRIBUTES ObjectAttributes;
PTCP_REQUEST_QUERY_INFORMATION_EX TcpRequestQueryInformationEx;
IPAddrEntry *AddressEntry,*AddressArray;
IPSNMPInfo *IpsiInfo;
PHEADLESS_CMD_SET_BLUE_SCREEN_DATA LocalPropBuffer = NULL;
PVOID LocalBuffer;
PUCHAR pch = NULL;
ULONG len;
BOOLEAN putPrompt=FALSE;
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoGetNetInfo: Entering.\n")));
//
// Alloc space for calling the IP driver
//
TcpRequestQueryInformationEx = ALLOCATE_POOL(
sizeof(TCP_REQUEST_QUERY_INFORMATION_EX),
GENERAL_POOL_TAG );
if (TcpRequestQueryInformationEx == NULL) {
SacPutSimpleMessage(SAC_NO_MEMORY);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoGetNetInfo: Exiting (1).\n")));
return;
}
IpsiInfo = ALLOCATE_POOL( sizeof(IPSNMPInfo),
GENERAL_POOL_TAG );
if (IpsiInfo == NULL) {
SacPutSimpleMessage(SAC_NO_MEMORY);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoGetNetInfo: Exiting (1).\n")));
FREE_POOL(&TcpRequestQueryInformationEx);
return;
}
//
// zero out the context information and preload with the info we're gonna
// request (we want the count of interfaces)
//
RtlZeroMemory(TcpRequestQueryInformationEx, sizeof(TCP_REQUEST_QUERY_INFORMATION_EX));
TcpRequestQueryInformationEx->ID.toi_id = IP_MIB_STATS_ID;
TcpRequestQueryInformationEx->ID.toi_type = INFO_TYPE_PROVIDER;
TcpRequestQueryInformationEx->ID.toi_class = INFO_CLASS_PROTOCOL;
TcpRequestQueryInformationEx->ID.toi_entity.tei_entity = CL_NL_ENTITY;
TcpRequestQueryInformationEx->ID.toi_entity.tei_instance = 0;
LocalBuffer = ALLOCATE_POOL(MEMORY_INCREMENT, GENERAL_POOL_TAG);
if (LocalBuffer == NULL) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoGetNetInfo: Exiting (6).\n")));
FREE_POOL(&TcpRequestQueryInformationEx);
FREE_POOL(&IpsiInfo);
return;
}
//
// Start by opening the TCP driver
//
RtlInitUnicodeString(&UnicodeString, DD_TCP_DEVICE_NAME);
InitializeObjectAttributes(&ObjectAttributes,
&UnicodeString,
OBJ_CASE_INSENSITIVE,
NULL,
NULL
);
Status = ZwOpenFile(&Handle,
(ACCESS_MASK)FILE_GENERIC_READ,
&ObjectAttributes,
&IoStatusBlock,
FILE_SHARE_READ | FILE_SHARE_WRITE,
0
);
if (!NT_SUCCESS(Status)) {
if (PrintToTerminal ) {
SacPutSimpleMessage(SAC_IPADDR_FAILED);
SacPutSimpleMessage(SAC_ENTER);
}
FREE_POOL(&LocalBuffer);
FREE_POOL(&IpsiInfo);
FREE_POOL(&TcpRequestQueryInformationEx);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoGetNetInfo: Exiting (2).\n")));
return;
}
if (SACEvent == NULL) {
if (PrintToTerminal) {
SacPutSimpleMessage(SAC_IPADDR_FAILED);
}
ZwClose(Handle);
FREE_POOL(&LocalBuffer);
FREE_POOL(&IpsiInfo);
FREE_POOL(&TcpRequestQueryInformationEx);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoGetNetInfo: Exiting (14).\n")));
return;
}
//
// now call the ioctl
//
Status = CallQueryIPIOCTL(
Handle,
SACEvent,
SACEventHandle,
&IoStatusBlock,
TcpRequestQueryInformationEx,
sizeof(TCP_REQUEST_QUERY_INFORMATION_EX),
IpsiInfo,
sizeof(IPSNMPInfo),
FALSE,
&putPrompt);
if (!NT_SUCCESS(Status)) {
if (PrintToTerminal){
SacPutSimpleMessage(SAC_IPADDR_FAILED);
}
ZwClose(Handle);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (15).\n")));
FREE_POOL(&LocalBuffer);
FREE_POOL(&IpsiInfo);
FREE_POOL(&TcpRequestQueryInformationEx);
return;
}
if (IpsiInfo->ipsi_numaddr == 0) {
if (PrintToTerminal) {
SacPutSimpleMessage( SAC_IPADDR_NONE );
}
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (15).\n")));
ZwClose(Handle);
FREE_POOL(&LocalBuffer);
FREE_POOL(&IpsiInfo);
FREE_POOL(&TcpRequestQueryInformationEx);
return;
}
//
// if it succeeded, then allocate space for the array of IP addresses
//
AddressArray = ALLOCATE_POOL(IpsiInfo->ipsi_numaddr*sizeof(IPAddrEntry),
GENERAL_POOL_TAG);
if (AddressArray == NULL) {
SacPutSimpleMessage(SAC_NO_MEMORY);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (16).\n")));
ZwClose(Handle);
FREE_POOL(&LocalBuffer);
FREE_POOL(&IpsiInfo);
FREE_POOL(&TcpRequestQueryInformationEx);
return;
}
//
// zero out the context information and preload with the info we're gonna
// request (we want the count of interfaces)
//
RtlZeroMemory(TcpRequestQueryInformationEx, sizeof(TCP_REQUEST_QUERY_INFORMATION_EX));
TcpRequestQueryInformationEx->ID.toi_id = IP_MIB_ADDRTABLE_ENTRY_ID;
TcpRequestQueryInformationEx->ID.toi_type = INFO_TYPE_PROVIDER;
TcpRequestQueryInformationEx->ID.toi_class = INFO_CLASS_PROTOCOL;
TcpRequestQueryInformationEx->ID.toi_entity.tei_entity = CL_NL_ENTITY;
TcpRequestQueryInformationEx->ID.toi_entity.tei_instance = 0;
Status = CallQueryIPIOCTL(
Handle,
SACEvent,
SACEventHandle,
&IoStatusBlock,
TcpRequestQueryInformationEx,
sizeof(TCP_REQUEST_QUERY_INFORMATION_EX),
AddressArray,
IpsiInfo->ipsi_numaddr*sizeof(IPAddrEntry),
PrintToTerminal,
&putPrompt);
//
// don't need this anymore
//
FREE_POOL(&TcpRequestQueryInformationEx);
ZwClose(Handle);
if (!NT_SUCCESS(Status)) {
if (PrintToTerminal){
SacPutSimpleMessage(SAC_IPADDR_FAILED);
swprintf((PWSTR)LocalBuffer, GetMessage( SAC_FAILURE_WITH_ERROR), Status);
SacPutUnicodeString((PWSTR)LocalBuffer);
}
FREE_POOL(&LocalBuffer);
FREE_POOL(&AddressArray);
FREE_POOL(&IpsiInfo);
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoSetIpAddressCommand: Exiting (15).\n")));
return;
}
//
// Need to allocate a buffer for the XML data.
//
if(PrintToTerminal==FALSE) {
LocalPropBuffer = (PHEADLESS_CMD_SET_BLUE_SCREEN_DATA) ALLOCATE_POOL(2*MEMORY_INCREMENT, GENERAL_POOL_TAG);
if (LocalPropBuffer == NULL) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoGetNetInfo: Exiting (6).\n")));
FREE_POOL(&AddressArray);
FREE_POOL(&IpsiInfo);
return;
}
pch = &(LocalPropBuffer->Data[0]);
len = sprintf((LPSTR)pch,"IPADDRESS");
LocalPropBuffer->ValueIndex = len+1;
pch = pch+len+1;
len = sprintf((LPSTR)pch,"\r\n<PROPERTY.ARRAY NAME=\"IPADDRESS\" TYPE=\"string\">\r\n");
pch = pch + len;
len = sprintf((LPSTR)pch,"<VALUE.ARRAY>\r\n");
pch = pch + len;
}
//
// walk the list of IP addresses and spit out the data
//
for (i = 0; i < IpsiInfo->ipsi_numaddr; i++) {
AddressEntry = &AddressArray[i];
if (IP_LOOPBACK(AddressEntry->iae_addr)) {
continue;
}
if(PrintToTerminal){
swprintf(LocalBuffer,
GetMessage( SAC_IPADDR_DATA ),
AddressEntry->iae_context,
AddressEntry->iae_addr & 0xFF,
(AddressEntry->iae_addr >> 8) & 0xFF,
(AddressEntry->iae_addr >> 16) & 0xFF,
(AddressEntry->iae_addr >> 24) & 0xFF,
AddressEntry->iae_mask & 0xFF,
(AddressEntry->iae_mask >> 8) & 0xFF,
(AddressEntry->iae_mask >> 16) & 0xFF,
(AddressEntry->iae_mask >> 24) & 0xFF
);
SacPutUnicodeString(LocalBuffer);
} else {
len=sprintf((LPSTR)LocalBuffer,"<VALUE>\"%d.%d.%d.%d\"</VALUE>\r\n",
AddressEntry->iae_addr & 0xFF,
(AddressEntry->iae_addr >> 8) & 0xFF,
(AddressEntry->iae_addr >> 16) & 0xFF,
(AddressEntry->iae_addr >> 24) & 0xFF
);
if (pch + len < ((PUCHAR) LocalPropBuffer) + 2*MEMORY_INCREMENT - 80){
// the 80 characters ensures that we can end this XML data
// properly
strcat((LPSTR)pch,LocalBuffer);
pch = pch + len;
}
}
}
if(PrintToTerminal==FALSE) {
sprintf((LPSTR)pch, "</VALUE.ARRAY>\r\n</PROPERTY.ARRAY>");
}
FREE_POOL(&AddressArray);
FREE_POOL(&IpsiInfo);
if(!PrintToTerminal){
HeadlessDispatch(HeadlessCmdSetBlueScreenData,
LocalPropBuffer,
2*MEMORY_INCREMENT,
NULL,
NULL
);
FREE_POOL(&LocalPropBuffer);
//
// open up the IP driver so we know if the addresses change
//
RtlInitUnicodeString(&UnicodeString, DD_IP_DEVICE_NAME);
InitializeObjectAttributes(&ObjectAttributes,
&UnicodeString,
OBJ_CASE_INSENSITIVE,
NULL,
NULL
);
Status = ZwOpenFile(&Handle,
(ACCESS_MASK)FILE_GENERIC_READ,
&ObjectAttributes,
&IoStatusBlock,
FILE_SHARE_READ | FILE_SHARE_WRITE,
0
);
if (!NT_SUCCESS(Status)) {
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC DoGetNetInfo: Exiting (2).\n")));
return;
}
Status = ZwDeviceIoControlFile(Handle,
NULL,
NetAPCRoutine,
NULL,
&GlobalIoStatusBlock,
IOCTL_IP_ADDCHANGE_NOTIFY_REQUEST,
NULL,
0,
NULL,
0
);
if (Status == STATUS_PENDING) {
IoctlSubmitted = TRUE;
}
if (putPrompt) {
SacPutSimpleMessage(SAC_ENTER);
SacPutSimpleMessage(SAC_PROMPT);
}
}
ZwClose(Handle);
return;
}
VOID
NetAPCRoutine(IN PVOID ApcContext,
IN PIO_STATUS_BLOCK IoStatusBlock,
IN ULONG Reserved
)
/*++
Routine Description:
This is the APC routine called after IOCTL_IP_ADDCHANGE_NOTIFY_REQUEST
was completed
Arguments:
APCContext - UNUSED
IoStatusBlock - Status about the Fate of the IRP
Reserved - UNUSED
Return Value:
None.
--*/
{
UNREFERENCED_PARAMETER(Reserved);
UNREFERENCED_PARAMETER(ApcContext);
if (IoStatusBlock->Status == STATUS_CANCELLED) {
// The SAC driver might be unloading
// BUGBUG - If the IP driver is stopped and restarted
// then we are out of the loop. What to do ??
return;
}
// Refresh the kernel information and resend the IRP
DoGetNetInfo( FALSE );
return;
}
VOID
SubmitIPIoRequest(
)
/*++
Routine Description:
Called the first time by the Processing Thread to actually
submit the ADDR_CHANGE IOCTL to the IP Driver. Only the
processing thread can call this and calls it only once successfully.
Then on the APC is reentered only through the NetAPCRoutine
Arguments:
None.
Return Value:
None.
--*/
{
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE,
KdPrint(("SAC Submit IP Ioctl: Entering.\n")));
DoGetNetInfo( FALSE );
return;
}
VOID
CancelIPIoRequest(
)
/*++
Routine Description:
Called by the processing thread during unload of the driver
to cancel the IOCTL sent to the IP driver
Arguments:
None.
Return Value:
None.
--*/
{
IO_STATUS_BLOCK IoStatusBlock;
UNICODE_STRING UnicodeString;
OBJECT_ATTRIBUTES ObjectAttributes;
NTSTATUS Status;
HANDLE Handle;
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE,
KdPrint(("SAC Cancel IP Ioctl: Entering.\n")));
RtlInitUnicodeString(&UnicodeString, DD_IP_DEVICE_NAME);
InitializeObjectAttributes(&ObjectAttributes,
&UnicodeString,
OBJ_CASE_INSENSITIVE,
NULL,
NULL
);
Status = ZwOpenFile(&Handle,
(ACCESS_MASK)FILE_GENERIC_READ,
&ObjectAttributes,
&IoStatusBlock,
FILE_SHARE_READ | FILE_SHARE_WRITE,
0
);
if (!NT_SUCCESS(Status)) {
// Well, well IP Driver was probably never loaded.
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE, KdPrint(("SAC Cancel IP IOCTL: Exiting (2).\n")));
return;
}
ZwCancelIoFile(Handle,
&IoStatusBlock
);
ZwClose(Handle);
}
VOID
DoMachineInformationCommand(
VOID
)
/*++
Routine Description:
This function displays the contents of a buffer, which in turn contains
a bunch of machine-specific information that can be used to help identify
the machine.
Arguments:
None.
Return Value:
None.
--*/
{
LARGE_INTEGER TickCount;
LARGE_INTEGER ElapsedTime;
ULONG ElapsedHours = 0;
ULONG ElapsedMinutes = 0;
ULONG ElapsedSeconds = 0;
PWSTR TmpBuffer;
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE,
KdPrint(("SAC Display Machine Information: Entering.\n")));
//
// If the information buffer hasn't been filled in yet, there's not much we can do.
//
if( MachineInformationBuffer == NULL ) {
//
// He's empty. This shouldn't have happened though because
// he gets filled as soon as we're initialized.
//
IF_SAC_DEBUG( SAC_DEBUG_FUNC_TRACE_LOUD,
KdPrint(("SAC Display Machine Information: MachineInformationBuffer hasn't been initialized yet.\n")));
SacPutSimpleMessage(SAC_IDENTIFICATION_UNAVAILABLE);
return;
}
//
// Static information about ourselves.
//
SacPutUnicodeString((PWSTR)MachineInformationBuffer);
//
// Elapsed machine uptime.
//
// Elapsed TickCount
KeQueryTickCount( &TickCount );
// ElapsedTime in seconds.
ElapsedTime.QuadPart = (TickCount.QuadPart)/(10000000/KeQueryTimeIncrement());
ElapsedHours = (ULONG)(ElapsedTime.QuadPart / 3600);
ElapsedMinutes = (ULONG)(ElapsedTime.QuadPart % 3600) / 60;
ElapsedSeconds = (ULONG)(ElapsedTime.QuadPart % 3600) % 60;
TmpBuffer = (PWSTR)ALLOCATE_POOL( 0x100, GENERAL_POOL_TAG );
if( TmpBuffer ) {
swprintf( (PWSTR)TmpBuffer,
GetMessage( SAC_HEARTBEAT_FORMAT ),
ElapsedHours,
ElapsedMinutes,
ElapsedSeconds );
SacPutUnicodeString( (PWSTR)TmpBuffer );
FREE_POOL( &TmpBuffer );
}
IF_SAC_DEBUG(SAC_DEBUG_FUNC_TRACE,
KdPrint(("SAC Display Machine Information: Exiting.\n")));
return;
}
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