reactos/ntoskrnl/kd/kdio.c
Hermès Bélusca-Maïto d32e96d602
This was not meant to be committed!
This reverts commit 5e14dbd648.
2019-12-26 17:19:11 +01:00

728 lines
21 KiB
C

/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS kernel
* FILE: ntoskrnl/kd/kdio.c
* PURPOSE: NT Kernel Debugger Input/Output Functions
*
* PROGRAMMERS: Alex Ionescu (alex@relsoft.net)
*/
/* INCLUDES ******************************************************************/
#include <ntoskrnl.h>
#include <reactos/buildno.h>
#define NDEBUG
#include <debug.h>
/* GLOBALS *******************************************************************/
#define KdpBufferSize (1024 * 512)
static BOOLEAN KdpLoggingEnabled = FALSE;
static PCHAR KdpDebugBuffer = NULL;
static volatile ULONG KdpCurrentPosition = 0;
static volatile ULONG KdpFreeBytes = 0;
static KSPIN_LOCK KdpDebugLogSpinLock;
static KEVENT KdpLoggerThreadEvent;
static HANDLE KdpLogFileHandle;
ANSI_STRING KdpLogFileName = RTL_CONSTANT_STRING("\\SystemRoot\\debug.log");
static KSPIN_LOCK KdpSerialSpinLock;
ULONG SerialPortNumber = DEFAULT_DEBUG_PORT;
CPPORT SerialPortInfo = {0, DEFAULT_DEBUG_BAUD_RATE, 0};
/* Current Port in use. FIXME: Do we support more than one? */
ULONG KdpPort;
#define KdpScreenLineLengthDefault 80
static CHAR KdpScreenLineBuffer[KdpScreenLineLengthDefault + 1] = "";
static ULONG KdpScreenLineBufferPos = 0, KdpScreenLineLength = 0;
const ULONG KdpDmesgBufferSize = 128 * 1024; // 512*1024; // 5*1024*1024;
PCHAR KdpDmesgBuffer = NULL;
volatile ULONG KdpDmesgCurrentPosition = 0;
volatile ULONG KdpDmesgFreeBytes = 0;
volatile ULONG KdbDmesgTotalWritten = 0;
volatile BOOLEAN KdbpIsInDmesgMode = FALSE;
static KSPIN_LOCK KdpDmesgLogSpinLock;
/* UTILITY FUNCTIONS *********************************************************/
/*
* Get the total size of the memory before
* Mm is initialized, by counting the number
* of physical pages. Useful for debug logging.
*
* Strongly inspired by:
* mm\ARM3\mminit.c : MiScanMemoryDescriptors(...)
*
* See also: kd64\kdinit.c
*/
static INIT_FUNCTION
SIZE_T
KdpGetMemorySizeInMBs(IN PLOADER_PARAMETER_BLOCK LoaderBlock)
{
PLIST_ENTRY ListEntry;
PMEMORY_ALLOCATION_DESCRIPTOR Descriptor;
SIZE_T NumberOfPhysicalPages = 0;
/* Loop the memory descriptors */
for (ListEntry = LoaderBlock->MemoryDescriptorListHead.Flink;
ListEntry != &LoaderBlock->MemoryDescriptorListHead;
ListEntry = ListEntry->Flink)
{
/* Get the descriptor */
Descriptor = CONTAINING_RECORD(ListEntry,
MEMORY_ALLOCATION_DESCRIPTOR,
ListEntry);
/* Check if this is invisible memory */
if ((Descriptor->MemoryType == LoaderFirmwarePermanent) ||
(Descriptor->MemoryType == LoaderSpecialMemory) ||
(Descriptor->MemoryType == LoaderHALCachedMemory) ||
(Descriptor->MemoryType == LoaderBBTMemory))
{
/* Skip this descriptor */
continue;
}
/* Check if this is bad memory */
if (Descriptor->MemoryType != LoaderBad)
{
/* Count this in the total of pages */
NumberOfPhysicalPages += Descriptor->PageCount;
}
}
/* Round size up. Assumed to better match actual physical RAM size */
return ALIGN_UP_BY(NumberOfPhysicalPages * PAGE_SIZE, 1024 * 1024) / (1024 * 1024);
}
/* See also: kd64\kdinit.c */
static INIT_FUNCTION
VOID
KdpPrintBanner(IN SIZE_T MemSizeMBs)
{
DPRINT1("-----------------------------------------------------\n");
DPRINT1("ReactOS " KERNEL_VERSION_STR " (Build " KERNEL_VERSION_BUILD_STR ") (Commit " KERNEL_VERSION_COMMIT_HASH ")\n");
DPRINT1("%u System Processor [%u MB Memory]\n", KeNumberProcessors, MemSizeMBs);
DPRINT1("Command Line: %s\n", KeLoaderBlock->LoadOptions);
DPRINT1("ARC Paths: %s %s %s %s\n", KeLoaderBlock->ArcBootDeviceName, KeLoaderBlock->NtHalPathName, KeLoaderBlock->ArcHalDeviceName, KeLoaderBlock->NtBootPathName);
}
/* LOCKING FUNCTIONS *********************************************************/
KIRQL
NTAPI
KdpAcquireLock(IN PKSPIN_LOCK SpinLock)
{
KIRQL OldIrql;
/* Acquire the spinlock without waiting at raised IRQL */
while (TRUE)
{
/* Loop until the spinlock becomes available */
while (!KeTestSpinLock(SpinLock));
/* Spinlock is free, raise IRQL to high level */
KeRaiseIrql(HIGH_LEVEL, &OldIrql);
/* Try to get the spinlock */
if (KeTryToAcquireSpinLockAtDpcLevel(SpinLock))
break;
/* Someone else got the spinlock, lower IRQL back */
KeLowerIrql(OldIrql);
}
return OldIrql;
}
VOID
NTAPI
KdpReleaseLock(IN PKSPIN_LOCK SpinLock,
IN KIRQL OldIrql)
{
/* Release the spinlock */
KiReleaseSpinLock(SpinLock);
// KeReleaseSpinLockFromDpcLevel(SpinLock);
/* Restore the old IRQL */
KeLowerIrql(OldIrql);
}
/* FILE DEBUG LOG FUNCTIONS **************************************************/
static VOID
NTAPI
KdpLoggerThread(PVOID Context)
{
ULONG beg, end, num;
IO_STATUS_BLOCK Iosb;
KdpLoggingEnabled = TRUE;
while (TRUE)
{
KeWaitForSingleObject(&KdpLoggerThreadEvent, Executive, KernelMode, FALSE, NULL);
/* Bug */
/* Keep KdpCurrentPosition and KdpFreeBytes values in local
* variables to avoid their possible change from Producer part,
* KdpPrintToLogFile function
*/
end = KdpCurrentPosition;
num = KdpFreeBytes;
/* Now securely calculate values, based on local variables */
beg = (end + num) % KdpBufferSize;
num = KdpBufferSize - num;
/* Nothing to do? */
if (num == 0)
continue;
if (end > beg)
{
NtWriteFile(KdpLogFileHandle, NULL, NULL, NULL, &Iosb,
KdpDebugBuffer + beg, num, NULL, NULL);
}
else
{
NtWriteFile(KdpLogFileHandle, NULL, NULL, NULL, &Iosb,
KdpDebugBuffer + beg, KdpBufferSize - beg, NULL, NULL);
NtWriteFile(KdpLogFileHandle, NULL, NULL, NULL, &Iosb,
KdpDebugBuffer, end, NULL, NULL);
}
(VOID)InterlockedExchangeAddUL(&KdpFreeBytes, num);
}
}
static VOID
NTAPI
KdpPrintToLogFile(PCHAR String,
ULONG StringLength)
{
KIRQL OldIrql;
ULONG beg, end, num;
if (KdpDebugBuffer == NULL) return;
/* Acquire the printing spinlock without waiting at raised IRQL */
OldIrql = KdpAcquireLock(&KdpDebugLogSpinLock);
beg = KdpCurrentPosition;
num = KdpFreeBytes;
if (StringLength < num)
num = StringLength;
if (num != 0)
{
end = (beg + num) % KdpBufferSize;
KdpCurrentPosition = end;
KdpFreeBytes -= num;
if (end > beg)
{
RtlCopyMemory(KdpDebugBuffer + beg, String, num);
}
else
{
RtlCopyMemory(KdpDebugBuffer + beg, String, KdpBufferSize - beg);
RtlCopyMemory(KdpDebugBuffer, String + KdpBufferSize - beg, end);
}
}
/* Release the spinlock */
KdpReleaseLock(&KdpDebugLogSpinLock, OldIrql);
/* Signal the logger thread */
if (OldIrql <= DISPATCH_LEVEL && KdpLoggingEnabled)
KeSetEvent(&KdpLoggerThreadEvent, IO_NO_INCREMENT, FALSE);
}
VOID
NTAPI
KdpDebugLogInit(PKD_DISPATCH_TABLE DispatchTable,
ULONG BootPhase)
{
NTSTATUS Status;
UNICODE_STRING FileName;
OBJECT_ATTRIBUTES ObjectAttributes;
IO_STATUS_BLOCK Iosb;
HANDLE ThreadHandle;
KPRIORITY Priority;
SIZE_T MemSizeMBs;
if (!KdpDebugMode.File) return;
if (BootPhase == 0)
{
KdComPortInUse = NULL;
/* Write out the functions that we support for now */
DispatchTable->KdpInitRoutine = KdpDebugLogInit;
DispatchTable->KdpPrintRoutine = KdpPrintToLogFile;
/* Register as a Provider */
InsertTailList(&KdProviders, &DispatchTable->KdProvidersList);
}
else if (BootPhase == 1)
{
/* Allocate a buffer for debug log */
KdpDebugBuffer = ExAllocatePool(NonPagedPool, KdpBufferSize);
KdpFreeBytes = KdpBufferSize;
/* Initialize spinlock */
KeInitializeSpinLock(&KdpDebugLogSpinLock);
/* Display separator + ReactOS version at start of the debug log */
/* Round size up. Assumed to better match actual physical RAM size */
MemSizeMBs = ALIGN_UP_BY(MmNumberOfPhysicalPages * PAGE_SIZE, 1024 * 1024) / (1024 * 1024);
KdpPrintBanner(MemSizeMBs);
}
else if (BootPhase == 2)
{
HalDisplayString("\r\n File log debugging enabled\r\n\r\n");
}
else if (BootPhase == 3)
{
/* Setup the log name */
Status = RtlAnsiStringToUnicodeString(&FileName, &KdpLogFileName, TRUE);
if (!NT_SUCCESS(Status)) return;
InitializeObjectAttributes(&ObjectAttributes,
&FileName,
OBJ_CASE_INSENSITIVE | OBJ_KERNEL_HANDLE,
NULL,
NULL);
/* Create the log file */
Status = NtCreateFile(&KdpLogFileHandle,
FILE_APPEND_DATA | SYNCHRONIZE,
&ObjectAttributes,
&Iosb,
NULL,
FILE_ATTRIBUTE_NORMAL,
FILE_SHARE_READ,
FILE_SUPERSEDE,
FILE_WRITE_THROUGH | FILE_SYNCHRONOUS_IO_NONALERT,
NULL,
0);
RtlFreeUnicodeString(&FileName);
if (!NT_SUCCESS(Status))
return;
KeInitializeEvent(&KdpLoggerThreadEvent, SynchronizationEvent, TRUE);
/* Create the logger thread */
Status = PsCreateSystemThread(&ThreadHandle,
THREAD_ALL_ACCESS,
NULL,
NULL,
NULL,
KdpLoggerThread,
NULL);
if (!NT_SUCCESS(Status))
{
NtClose(KdpLogFileHandle);
return;
}
Priority = 7;
NtSetInformationThread(ThreadHandle,
ThreadPriority,
&Priority,
sizeof(Priority));
}
}
/* SERIAL FUNCTIONS **********************************************************/
VOID
NTAPI
KdpSerialDebugPrint(PCHAR Message,
ULONG Length)
{
PCHAR pch = (PCHAR)Message;
KIRQL OldIrql;
/* Acquire the printing spinlock without waiting at raised IRQL */
OldIrql = KdpAcquireLock(&KdpSerialSpinLock);
/* Output the message */
while (pch < Message + Length && *pch != '\0')
{
if (*pch == '\n')
{
KdPortPutByteEx(&SerialPortInfo, '\r');
}
KdPortPutByteEx(&SerialPortInfo, *pch);
pch++;
}
/* Release the spinlock */
KdpReleaseLock(&KdpSerialSpinLock, OldIrql);
}
VOID
NTAPI
KdpSerialInit(PKD_DISPATCH_TABLE DispatchTable,
ULONG BootPhase)
{
SIZE_T MemSizeMBs;
if (!KdpDebugMode.Serial) return;
if (BootPhase == 0)
{
/* Write out the functions that we support for now */
DispatchTable->KdpInitRoutine = KdpSerialInit;
DispatchTable->KdpPrintRoutine = KdpSerialDebugPrint;
/* Initialize the Port */
if (!KdPortInitializeEx(&SerialPortInfo, SerialPortNumber))
{
KdpDebugMode.Serial = FALSE;
return;
}
KdComPortInUse = SerialPortInfo.Address;
/* Initialize spinlock */
KeInitializeSpinLock(&KdpSerialSpinLock);
/* Register as a Provider */
InsertTailList(&KdProviders, &DispatchTable->KdProvidersList);
/* Display separator + ReactOS version at start of the debug log */
MemSizeMBs = KdpGetMemorySizeInMBs(KeLoaderBlock);
KdpPrintBanner(MemSizeMBs);
}
else if (BootPhase == 2)
{
HalDisplayString("\r\n Serial debugging enabled\r\n\r\n");
}
}
/* SCREEN FUNCTIONS **********************************************************/
VOID
KdpScreenAcquire(VOID)
{
if (InbvIsBootDriverInstalled() /* &&
!InbvCheckDisplayOwnership() */)
{
/* Acquire ownership and reset the display */
InbvAcquireDisplayOwnership();
InbvResetDisplay();
InbvSolidColorFill(0, 0, 639, 479, 0);
InbvSetTextColor(15);
InbvInstallDisplayStringFilter(NULL);
InbvEnableDisplayString(TRUE);
InbvSetScrollRegion(0, 0, 639, 479);
}
}
// extern VOID NTAPI InbvSetDisplayOwnership(IN BOOLEAN DisplayOwned);
VOID
KdpScreenRelease(VOID)
{
if (InbvIsBootDriverInstalled()&&
InbvCheckDisplayOwnership())
{
/* Release the display */
// InbvSetDisplayOwnership(FALSE);
InbvNotifyDisplayOwnershipLost(NULL);
}
}
/*
* Screen debug logger function KdpScreenPrint() writes text messages into
* KdpDmesgBuffer, using it as a circular buffer. KdpDmesgBuffer contents could
* be later (re)viewed using dmesg command of kdbg. KdpScreenPrint() protects
* KdpDmesgBuffer from simultaneous writes by use of KdpDmesgLogSpinLock.
*/
static VOID
NTAPI
KdpScreenPrint(PCHAR Message,
ULONG Length)
{
PCHAR pch = (PCHAR)Message;
KIRQL OldIrql;
ULONG beg, end, num;
while (pch < Message + Length && *pch)
{
if (*pch == '\b')
{
/* HalDisplayString does not support '\b'. Workaround it and use '\r' */
if (KdpScreenLineLength > 0)
{
/* Remove last character from buffer */
KdpScreenLineBuffer[--KdpScreenLineLength] = '\0';
KdpScreenLineBufferPos = KdpScreenLineLength;
/* Clear row and print line again */
HalDisplayString("\r");
HalDisplayString(KdpScreenLineBuffer);
}
}
else
{
KdpScreenLineBuffer[KdpScreenLineLength++] = *pch;
KdpScreenLineBuffer[KdpScreenLineLength] = '\0';
}
if (*pch == '\n' || KdpScreenLineLength == KdpScreenLineLengthDefault)
{
/* Print buffered characters */
if (KdpScreenLineBufferPos != KdpScreenLineLength)
HalDisplayString(KdpScreenLineBuffer + KdpScreenLineBufferPos);
/* Clear line buffer */
KdpScreenLineBuffer[0] = '\0';
KdpScreenLineLength = KdpScreenLineBufferPos = 0;
}
++pch;
}
/* Print buffered characters */
if (KdpScreenLineBufferPos != KdpScreenLineLength)
{
HalDisplayString(KdpScreenLineBuffer + KdpScreenLineBufferPos);
KdpScreenLineBufferPos = KdpScreenLineLength;
}
/* Dmesg: store Message in the buffer to show it later */
if (KdbpIsInDmesgMode)
return;
if (KdpDmesgBuffer == NULL)
return;
/* Acquire the printing spinlock without waiting at raised IRQL */
OldIrql = KdpAcquireLock(&KdpDmesgLogSpinLock);
/* Invariant: always_true(KdpDmesgFreeBytes == KdpDmesgBufferSize);
* set num to min(KdpDmesgFreeBytes, Length).
*/
num = (Length < KdpDmesgFreeBytes) ? Length : KdpDmesgFreeBytes;
beg = KdpDmesgCurrentPosition;
if (num != 0)
{
end = (beg + num) % KdpDmesgBufferSize;
if (end > beg)
{
RtlCopyMemory(KdpDmesgBuffer + beg, Message, Length);
}
else
{
RtlCopyMemory(KdpDmesgBuffer + beg, Message, KdpDmesgBufferSize - beg);
RtlCopyMemory(KdpDmesgBuffer, Message + (KdpDmesgBufferSize - beg), end);
}
KdpDmesgCurrentPosition = end;
/* Counting the total bytes written */
KdbDmesgTotalWritten += num;
}
/* Release the spinlock */
KdpReleaseLock(&KdpDmesgLogSpinLock, OldIrql);
/* Optional step(?): find out a way to notify about buffer exhaustion,
* and possibly fall into kbd to use dmesg command: user will read
* debug messages before they will be wiped over by next writes.
*/
}
VOID
NTAPI
KdpScreenInit(PKD_DISPATCH_TABLE DispatchTable,
ULONG BootPhase)
{
SIZE_T MemSizeMBs;
if (!KdpDebugMode.Screen) return;
if (BootPhase == 0)
{
/* Write out the functions that we support for now */
DispatchTable->KdpInitRoutine = KdpScreenInit;
DispatchTable->KdpPrintRoutine = KdpScreenPrint;
/* Register as a Provider */
InsertTailList(&KdProviders, &DispatchTable->KdProvidersList);
}
else if (BootPhase == 1)
{
/* Allocate a buffer for dmesg log buffer. +1 for terminating null,
* see kdbp_cli.c:KdbpCmdDmesg()/2
*/
KdpDmesgBuffer = ExAllocatePool(NonPagedPool, KdpDmesgBufferSize + 1);
RtlZeroMemory(KdpDmesgBuffer, KdpDmesgBufferSize + 1);
KdpDmesgFreeBytes = KdpDmesgBufferSize;
KdbDmesgTotalWritten = 0;
/* Take control of the display */
KdpScreenAcquire();
/* Initialize spinlock */
KeInitializeSpinLock(&KdpDmesgLogSpinLock);
/* Display separator + ReactOS version at start of the debug log */
/* Round size up. Assumed to better match actual physical RAM size */
MemSizeMBs = ALIGN_UP_BY(MmNumberOfPhysicalPages * PAGE_SIZE, 1024 * 1024) / (1024 * 1024);
KdpPrintBanner(MemSizeMBs);
}
else if (BootPhase == 2)
{
HalDisplayString("\r\n Screen debugging enabled\r\n\r\n");
}
}
/* GENERAL FUNCTIONS *********************************************************/
BOOLEAN
NTAPI
KdpPrintString(
_In_ PSTRING Output)
{
PLIST_ENTRY CurrentEntry;
PKD_DISPATCH_TABLE CurrentTable;
if (!KdpDebugMode.Value) return FALSE;
/* Call the registered handlers */
CurrentEntry = KdProviders.Flink;
while (CurrentEntry != &KdProviders)
{
/* Get the current table */
CurrentTable = CONTAINING_RECORD(CurrentEntry,
KD_DISPATCH_TABLE,
KdProvidersList);
/* Call it */
CurrentTable->KdpPrintRoutine(Output->Buffer, Output->Length);
/* Next Table */
CurrentEntry = CurrentEntry->Flink;
}
/* Call the Wrapper Routine */
if (WrapperTable.KdpPrintRoutine)
WrapperTable.KdpPrintRoutine(Output->Buffer, Output->Length);
return FALSE;
}
extern STRING KdbPromptString;
BOOLEAN
NTAPI
KdpPromptString(
_In_ PSTRING PromptString,
_In_ PSTRING ResponseString)
{
KIRQL OldIrql;
STRING StringChar;
CHAR Response;
USHORT i;
ULONG DummyScanCode;
StringChar.Buffer = &Response;
StringChar.Length = StringChar.MaximumLength = sizeof(Response);
/* Display the string and print a new line for log neatness */
KdpPrintString(PromptString);
*StringChar.Buffer = '\n';
KdpPrintString(&StringChar);
/* Print the kdb prompt */
KdpPrintString(&KdbPromptString);
// TODO: Use an improved KdbpReadCommand() function for our purposes.
/* Acquire the printing spinlock without waiting at raised IRQL */
OldIrql = KdpAcquireLock(&KdpSerialSpinLock);
if (!(KdbDebugState & KD_DEBUG_KDSERIAL))
KbdDisableMouse();
/* Loop the whole string */
for (i = 0; i < ResponseString->MaximumLength; i++)
{
/* Check if this is serial debugging mode */
if (KdbDebugState & KD_DEBUG_KDSERIAL)
{
/* Get the character from serial */
do
{
Response = KdbpTryGetCharSerial(MAXULONG);
} while (Response == -1);
}
else
{
/* Get the response from the keyboard */
do
{
Response = KdbpTryGetCharKeyboard(&DummyScanCode, MAXULONG);
} while (Response == -1);
}
/* Check for return */
if (Response == '\r')
{
/*
* We might need to discard the next '\n'.
* Wait a bit to make sure we receive it.
*/
KeStallExecutionProcessor(100000);
/* Check the mode */
if (KdbDebugState & KD_DEBUG_KDSERIAL)
{
/* Read and discard the next character, if any */
KdbpTryGetCharSerial(5);
}
else
{
/* Read and discard the next character, if any */
KdbpTryGetCharKeyboard(&DummyScanCode, 5);
}
/*
* Null terminate the output string -- documentation states that
* DbgPrompt does not null terminate, but it does
*/
*(PCHAR)(ResponseString->Buffer + i) = 0;
break;
}
/* Write it back and print it to the log */
*(PCHAR)(ResponseString->Buffer + i) = Response;
KdpReleaseLock(&KdpSerialSpinLock, OldIrql);
KdpPrintString(&StringChar);
OldIrql = KdpAcquireLock(&KdpSerialSpinLock);
}
/* Return the length */
ResponseString->Length = i;
if (!(KdbDebugState & KD_DEBUG_KDSERIAL))
KbdEnableMouse();
/* Release the spinlock */
KdpReleaseLock(&KdpSerialSpinLock, OldIrql);
/* Print a new line */
*StringChar.Buffer = '\n';
KdpPrintString(&StringChar);
/* Success; we don't need to resend */
return FALSE;
}
/* EOF */