reactos/ntoskrnl/kd/kdmain.c
Hermès Bélusca-Maïto 0d0ffb7d7d
[NTOS:KD:KDBG] Integration into KD framework (Part 2/3)
Add redirections for KdSave/KdRestore and KdD0Transition/KdD3Transition.

Both KDBG and KD(TERM) need those since they will become external
transport DLLs later.
2023-08-31 16:09:49 +02:00

488 lines
16 KiB
C

/*
* PROJECT: ReactOS Kernel
* LICENSE: GPL-2.0-or-later (https://spdx.org/licenses/GPL-2.0-or-later)
* PURPOSE: Kernel Debugger Initialization
* COPYRIGHT: Copyright 2005 Alex Ionescu <alex.ionescu@reactos.org>
* Copyright 2020 Hervé Poussineau <hpoussin@reactos.org>
* Copyright 2023 Hermès Bélusca-Maïto <hermes.belusca-maito@reactos.org>
*/
#include <ntoskrnl.h>
#include "kd.h"
#include "kdterminal.h"
#define NDEBUG
#include <debug.h>
#undef KdD0Transition
#undef KdD3Transition
#undef KdSave
#undef KdRestore
/* PUBLIC FUNCTIONS *********************************************************/
static VOID
KdpGetTerminalSettings(
_In_ PCSTR p1)
{
#define CONST_STR_LEN(x) (sizeof(x)/sizeof(x[0]) - 1)
while (p1 && *p1)
{
/* Skip leading whitespace */
while (*p1 == ' ') ++p1;
if (!_strnicmp(p1, "KDSERIAL", CONST_STR_LEN("KDSERIAL")))
{
p1 += CONST_STR_LEN("KDSERIAL");
KdbDebugState |= KD_DEBUG_KDSERIAL;
KdpDebugMode.Serial = TRUE;
}
else if (!_strnicmp(p1, "KDNOECHO", CONST_STR_LEN("KDNOECHO")))
{
p1 += CONST_STR_LEN("KDNOECHO");
KdbDebugState |= KD_DEBUG_KDNOECHO;
}
/* Move on to the next option */
p1 = strchr(p1, ' ');
}
}
static PCHAR
KdpGetDebugMode(
_In_ PCHAR Currentp2)
{
PCHAR p1, p2 = Currentp2;
ULONG Value;
/* Check for Screen Debugging */
if (!_strnicmp(p2, "SCREEN", 6))
{
/* Enable It */
p2 += 6;
KdpDebugMode.Screen = TRUE;
}
/* Check for Serial Debugging */
else if (!_strnicmp(p2, "COM", 3))
{
/* Check for a valid Serial Port */
p2 += 3;
if (*p2 != ':')
{
Value = (ULONG)atol(p2);
if (Value > 0 && Value < 5)
{
/* Valid port found, enable Serial Debugging */
KdpDebugMode.Serial = TRUE;
/* Set the port to use */
SerialPortNumber = Value;
}
}
else
{
Value = strtoul(p2 + 1, NULL, 0);
if (Value)
{
KdpDebugMode.Serial = TRUE;
SerialPortInfo.Address = UlongToPtr(Value);
SerialPortNumber = 0;
}
}
}
/* Check for Debug Log Debugging */
else if (!_strnicmp(p2, "FILE", 4))
{
/* Enable It */
p2 += 4;
KdpDebugMode.File = TRUE;
if (*p2 == ':')
{
p2++;
p1 = p2;
while (*p2 != '\0' && *p2 != ' ') p2++;
KdpLogFileName.MaximumLength = KdpLogFileName.Length = p2 - p1;
KdpLogFileName.Buffer = p1;
}
}
return p2;
}
NTSTATUS
NTAPI
KdDebuggerInitialize0(
_In_opt_ PLOADER_PARAMETER_BLOCK LoaderBlock)
{
PCHAR CommandLine, Port = NULL;
ULONG i;
BOOLEAN Success = FALSE;
if (LoaderBlock)
{
/* Check if we have a command line */
CommandLine = LoaderBlock->LoadOptions;
if (CommandLine)
{
/* Upcase it */
_strupr(CommandLine);
/* Get terminal settings */
KdpGetTerminalSettings(CommandLine);
/* Get the port */
Port = strstr(CommandLine, "DEBUGPORT");
}
}
/* Check if we got the /DEBUGPORT parameter(s) */
while (Port)
{
/* Move past the actual string, to reach the port*/
Port += sizeof("DEBUGPORT") - 1;
/* Now get past any spaces and skip the equal sign */
while (*Port == ' ') Port++;
Port++;
/* Get the debug mode and wrapper */
Port = KdpGetDebugMode(Port);
Port = strstr(Port, "DEBUGPORT");
}
/* Use serial port then */
if (KdpDebugMode.Value == 0)
KdpDebugMode.Serial = TRUE;
/* Call the providers at Phase 0 */
for (i = 0; i < RTL_NUMBER_OF(DispatchTable); i++)
{
DispatchTable[i].InitStatus = InitRoutines[i](&DispatchTable[i], 0);
Success = (Success || NT_SUCCESS(DispatchTable[i].InitStatus));
}
/* Return success if at least one of the providers succeeded */
return (Success ? STATUS_SUCCESS : STATUS_UNSUCCESSFUL);
}
/**
* @brief Reinitialization routine.
* DRIVER_REINITIALIZE
*
* Calls each registered provider for reinitialization at Phase >= 2.
* I/O is now set up for disk access, at different phases.
**/
static VOID
NTAPI
KdpDriverReinit(
_In_ PDRIVER_OBJECT DriverObject,
_In_opt_ PVOID Context,
_In_ ULONG Count)
{
PLIST_ENTRY CurrentEntry;
PKD_DISPATCH_TABLE CurrentTable;
PKDP_INIT_ROUTINE KdpInitRoutine;
ULONG BootPhase = (Count + 1); // Do BootPhase >= 2
BOOLEAN ScheduleReinit = FALSE;
ASSERT(KeGetCurrentIrql() == PASSIVE_LEVEL);
DPRINT("*** KD %sREINITIALIZATION - Phase %d ***\n",
Context ? "" : "BOOT ", BootPhase);
/* Call the registered providers */
for (CurrentEntry = KdProviders.Flink;
CurrentEntry != &KdProviders; NOTHING)
{
/* Get the provider */
CurrentTable = CONTAINING_RECORD(CurrentEntry,
KD_DISPATCH_TABLE,
KdProvidersList);
/* Go to the next entry (the Init routine may unlink us) */
CurrentEntry = CurrentEntry->Flink;
/* Call it if it requires a reinitialization */
if (CurrentTable->KdpInitRoutine)
{
/* Get the initialization routine and reset it */
KdpInitRoutine = CurrentTable->KdpInitRoutine;
CurrentTable->KdpInitRoutine = NULL;
CurrentTable->InitStatus = KdpInitRoutine(CurrentTable, BootPhase);
DPRINT("KdpInitRoutine(%p) returned 0x%08lx\n",
CurrentTable, CurrentTable->InitStatus);
/* Check whether it needs to be reinitialized again */
ScheduleReinit = (ScheduleReinit || CurrentTable->KdpInitRoutine);
}
}
DPRINT("ScheduleReinit: %s\n", ScheduleReinit ? "TRUE" : "FALSE");
if (ScheduleReinit)
{
/*
* Determine when to reinitialize.
* If Context == NULL, we are doing a boot-driver reinitialization.
* It is initially done once (Count == 1), and is rescheduled once
* after all other boot drivers get loaded (Count == 2).
* If further reinitialization is needed, switch to system-driver
* reinitialization and do it again, not more than twice.
*/
if (Count <= 1)
{
IoRegisterBootDriverReinitialization(DriverObject,
KdpDriverReinit,
(PVOID)FALSE);
}
else if (Count <= 3)
{
IoRegisterDriverReinitialization(DriverObject,
KdpDriverReinit,
(PVOID)TRUE);
}
else
{
/* Too late, no more reinitializations! */
DPRINT("Cannot reinitialize anymore!\n");
ScheduleReinit = FALSE;
}
}
if (!ScheduleReinit)
{
/* All the necessary reinitializations are done,
* the driver object is not needed anymore. */
ObMakeTemporaryObject(DriverObject);
IoDeleteDriver(DriverObject);
}
}
/**
* @brief Entry point for the auxiliary driver.
* DRIVER_INITIALIZE
**/
static NTSTATUS
NTAPI
KdpDriverEntry(
_In_ PDRIVER_OBJECT DriverObject,
_In_ PUNICODE_STRING RegistryPath)
{
UNREFERENCED_PARAMETER(RegistryPath);
/* Register for reinitialization after the other drivers are loaded */
IoRegisterBootDriverReinitialization(DriverObject,
KdpDriverReinit,
(PVOID)FALSE);
/* Set the driver as initialized */
DriverObject->Flags |= DRVO_INITIALIZED;
return STATUS_SUCCESS;
}
/**
* @brief Hooked HalInitPnpDriver() callback.
* It is initially set by the HAL when HalInitSystem(0, ...)
* is called earlier on.
**/
static pHalInitPnpDriver orgHalInitPnpDriver = NULL;
/**
* @brief
* HalInitPnpDriver() callback hook installed by KdDebuggerInitialize1().
*
* It is called during initialization of the I/O manager and is where
* the auxiliary driver is created. This driver is needed for receiving
* reinitialization callbacks in KdpDriverReinit() later.
* This hook must *always* call the original HalInitPnpDriver() function
* and return its returned value, or return STATUS_SUCCESS.
**/
static NTSTATUS
NTAPI
KdpInitDriver(VOID)
{
static BOOLEAN InitCalled = FALSE;
NTSTATUS Status;
UNICODE_STRING DriverName = RTL_CONSTANT_STRING(L"\\Driver\\KdDriver");
ASSERT(KeGetCurrentIrql() == PASSIVE_LEVEL);
/* Ensure we are not called more than once */
if (_InterlockedCompareExchange8((char*)&InitCalled, TRUE, FALSE) != FALSE)
return STATUS_SUCCESS;
/* Create the driver */
Status = IoCreateDriver(&DriverName, KdpDriverEntry);
if (!NT_SUCCESS(Status))
DPRINT1("IoCreateDriver failed: 0x%08lx\n", Status);
/* Ignore any failure from IoCreateDriver(). If it fails, no I/O-related
* initialization will happen (no file log debugging, etc.). */
/* Finally, restore and call the original HalInitPnpDriver() */
InterlockedExchangePointer((PVOID*)&HalInitPnpDriver, orgHalInitPnpDriver);
return (HalInitPnpDriver ? HalInitPnpDriver() : STATUS_SUCCESS);
}
NTSTATUS
NTAPI
KdDebuggerInitialize1(
_In_opt_ PLOADER_PARAMETER_BLOCK LoaderBlock)
{
PLIST_ENTRY CurrentEntry;
PKD_DISPATCH_TABLE CurrentTable;
PKDP_INIT_ROUTINE KdpInitRoutine;
BOOLEAN Success = FALSE;
BOOLEAN ReinitForPhase2 = FALSE;
/* Make space for the displayed providers' signons */
HalDisplayString("\r\n");
/* Call the registered providers */
for (CurrentEntry = KdProviders.Flink;
CurrentEntry != &KdProviders; NOTHING)
{
/* Get the provider */
CurrentTable = CONTAINING_RECORD(CurrentEntry,
KD_DISPATCH_TABLE,
KdProvidersList);
/* Go to the next entry (the Init routine may unlink us) */
CurrentEntry = CurrentEntry->Flink;
/* Get the initialization routine and reset it */
ASSERT(CurrentTable->KdpInitRoutine);
KdpInitRoutine = CurrentTable->KdpInitRoutine;
CurrentTable->KdpInitRoutine = NULL;
/* Call it */
CurrentTable->InitStatus = KdpInitRoutine(CurrentTable, 1);
/* Check whether it needs to be reinitialized for Phase 2 */
Success = (Success || NT_SUCCESS(CurrentTable->InitStatus));
ReinitForPhase2 = (ReinitForPhase2 || CurrentTable->KdpInitRoutine);
}
/* Make space for the displayed providers' signons */
HalDisplayString("\r\n");
NtGlobalFlag |= FLG_STOP_ON_EXCEPTION;
/* If we don't need to reinitialize providers for Phase 2, we are done */
if (!ReinitForPhase2)
{
/* Return success if at least one of them succeeded */
return (Success ? STATUS_SUCCESS : STATUS_UNSUCCESSFUL);
}
/**
* We want to be able to perform I/O-related initialization (starting a
* logger thread for file log debugging, loading KDBinit file for KDBG,
* etc.). A good place for this would be as early as possible, once the
* I/O Manager has started the storage and the boot filesystem drivers.
*
* Here is an overview of the initialization steps of the NT Kernel and
* Executive:
* ----
* KiSystemStartup(KeLoaderBlock)
* if (Cpu == 0) KdInitSystem(0, KeLoaderBlock);
* KiSwitchToBootStack() -> KiSystemStartupBootStack()
* -> KiInitializeKernel() -> ExpInitializeExecutive(Cpu, KeLoaderBlock)
*
* (NOTE: Any unexpected debugger break will call KdInitSystem(0, NULL); )
* KdInitSystem(0, LoaderBlock) -> KdDebuggerInitialize0(LoaderBlock);
*
* ExpInitializeExecutive(Cpu == 0): ExpInitializationPhase = 0;
* HalInitSystem(0, KeLoaderBlock); <-- Sets HalInitPnpDriver callback.
* ...
* PsInitSystem(LoaderBlock)
* PsCreateSystemThread(Phase1Initialization)
*
* Phase1Initialization(Discard): ExpInitializationPhase = 1;
* HalInitSystem(1, KeLoaderBlock);
* ...
* Early initialization of Ob, Ex, Ke.
* KdInitSystem(1, KeLoaderBlock);
* ...
* KdDebuggerInitialize1(LoaderBlock);
* ...
* IoInitSystem(LoaderBlock);
* ...
* ----
* As we can see, KdDebuggerInitialize1() is the last KD initialization
* routine the kernel calls, and is called *before* the I/O Manager starts.
* Thus, direct Nt/ZwCreateFile ... calls done there would fail. Also,
* we want to do the I/O initialization as soon as possible. There does
* not seem to be any exported way to be notified about the I/O manager
* initialization steps... that is, unless we somehow become a driver and
* insert ourselves in the flow!
*
* Since we are not a regular driver, we need to invoke IoCreateDriver()
* to create one. However, remember that we are currently running *before*
* IoInitSystem(), the I/O subsystem is not initialized yet. Due to this,
* calling IoCreateDriver(), much like any other IO functions, would lead
* to a crash, because it calls
* ObCreateObject(..., IoDriverObjectType, ...), and IoDriverObjectType
* is non-initialized yet (it's NULL).
*
* The chosen solution is to hook a "known" exported callback: namely, the
* HalInitPnpDriver() callback (it initializes the "HAL Root Bus Driver").
* It is set very early on by the HAL via the HalInitSystem(0, ...) call,
* and is called early on by IoInitSystem() before any driver is loaded,
* but after the I/O Manager has been minimally set up so that new drivers
* can be created.
* When the hook: KdpInitDriver() is called, we create our driver with
* IoCreateDriver(), specifying its entrypoint KdpDriverEntry(), then
* restore and call the original HalInitPnpDriver() callback.
*
* Another possible unexplored alternative, could be to insert ourselves
* in the KeLoaderBlock->LoadOrderListHead boot modules list, or in the
* KeLoaderBlock->BootDriverListHead boot-driver list. (Note that while
* we may be able to do this, because boot-drivers are resident in memory,
* much like we are, we cannot insert ourselves in the system-driver list
* however, since those drivers are expected to come from PE image files.)
*
* Once the KdpDriverEntry() driver entrypoint is called, we register
* KdpDriverReinit() for re-initialization with the I/O Manager, in order
* to provide more initialization points. KdpDriverReinit() calls the KD
* providers at BootPhase >= 2, and schedules further reinitializations
* (at most 3 more) if any of the providers request so.
**/
orgHalInitPnpDriver =
InterlockedExchangePointer((PVOID*)&HalInitPnpDriver, KdpInitDriver);
return STATUS_SUCCESS;
}
NTSTATUS
NTAPI
KdD0Transition(VOID)
{
/* Nothing to do */
return STATUS_SUCCESS;
}
NTSTATUS
NTAPI
KdD3Transition(VOID)
{
/* Nothing to do */
return STATUS_SUCCESS;
}
NTSTATUS
NTAPI
KdSave(
_In_ BOOLEAN SleepTransition)
{
/* Nothing to do */
return STATUS_SUCCESS;
}
NTSTATUS
NTAPI
KdRestore(
_In_ BOOLEAN SleepTransition)
{
/* Nothing to do */
return STATUS_SUCCESS;
}
/* EOF */