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- Final ROSRTL removal patch. The next patch will remove the actual library and code.

Browse source 
- Changes:
    - CreateProcess
        * Cleanup creation of the initial thread using new utility functions and remove rosrtl
        * Almost entirely rewrote the function to support features such as:
            - SxS (locally only, patch will follow),
            - SFP (SAFER) (locally only, patch will follow),
            - DllPaths (locally only, patch will follow), 
            - Proper process environment/paramter block creation
            - Proper console handle management (needs more work in kernel32/csr),
            - Tokens/CreateProcessAsUser (locally only, patch will follow), 
            - Simpler code for path lookup, and more robust.
            - Support for "auto-correction" (see Raymond Chen's blog)
            - 16-bit/NE detection
            - A variety of creation flags are now properly supported
            - Added support for an undocumented-yet-known (see comment) shell flag
            - Alert for flags we don't support yet
            - Catch invalid flag combinations and other caller errors
            - Improve and correct path searcing to use documented behaviours
            - Created a multitude of helper functions to make the code easier to read
              and allow them to be used for other apis as time goes on.
    
    - BaseProcessStartup
        * Call NtSetThreadInformation to let the Kernel know of the Thread's Start Address.
        * Correct prototype of Thread Startup function for this case.

This fixes MANY things, some of which may not be evident, and possibly creates regressions which I have not yet seen but will try to correct. Some of these may be caused by the fact that I've seen code send CreateProcessW incorrect flags. Some things of note: DO NOT send partial names as "lpApplicationName". It's not supposed to work unless you're in the same current directory. Also, do NOT send CREATE_UNICODE_ENVIRONMENT if you don't have a unicode environement, and vice-versa. I've seen lots of code doing mistakes related to this. I hope you appreciate this patch and won't all jump on me for possbile regressions :(.

svn path=/trunk/; revision=16730
This commit is contained in:
Alex Ionescu 2005-07-26 04:14:10 +00:00
parent 286cccb1de
commit 1e8c8e3fe6
4 changed files with 2083 additions and 2079 deletions
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2744
reactos/lib/kernel32/process/create.c
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File diff suppressed because it is too large Load diff

64
reactos/lib/kernel32/thread/i386/thread.S
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@ -1,32 +1,32 @@
/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS system libraries
* FILE: lib/kernel32/thread/i386/thread.S
* PURPOSE: Thread Start Thunks
* PROGRAMMER: Alex Ionescu (alex@relsoft.net)
*/
.globl _BaseThreadStartupThunk@0
.globl _BaseProcessStartThunk@0
.intel_syntax noprefix
_BaseThreadStartupThunk@0:
/* Start out fresh */
xor ebp, ebp
push ebx /* lpParameter */
push eax /* lpStartAddress */
push 0 /* Return EIP */
//jmp _BaseThreadStartup@8
_BaseProcessStartThunk@0:
/* Start out fresh */
xor ebp, ebp
push eax /* lpStartAddress */
push 0 /* Return EIP */
//jmp _BaseProcessStartup@4
/* EOF */
/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS system libraries
* FILE: lib/kernel32/thread/i386/thread.S
* PURPOSE: Thread Start Thunks
* PROGRAMMER: Alex Ionescu (alex@relsoft.net)
*/
.globl _BaseThreadStartupThunk@0
.globl _BaseProcessStartThunk@0
.intel_syntax noprefix
_BaseThreadStartupThunk@0:
/* Start out fresh */
xor ebp, ebp
push ebx /* lpParameter */
push eax /* lpStartAddress */
push 0 /* Return EIP */
jmp _BaseThreadStartup@8
_BaseProcessStartThunk@0:
/* Start out fresh */
xor ebp, ebp
push eax /* lpStartAddress */
push 0 /* Return EIP */
jmp _BaseProcessStartup@4
/* EOF */

399
reactos/lib/kernel32/thread/thread.c
View file

@ -1,13 +1,10 @@
/* $Id$
*
/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS system libraries
* FILE: lib/kernel32/thread/thread.c
* PURPOSE: Thread functions
* PROGRAMMER: Ariadne ( ariadne@xs4all.nl)
* Tls functions are modified from WINE
* UPDATE HISTORY:
* Created 01/11/98
* PROGRAMMERS: Alex Ionescu (alex@relsoft.net)
* Ariadne ( ariadne@xs4all.nl)
*
*/
@ -15,13 +12,9 @@
#include <k32.h>
/* FIXME */
#include <rosrtl/thread.h>
#define NDEBUG
#include "../include/debug.h"
/* FUNCTIONS *****************************************************************/
_SEH_FILTER(BaseThreadExceptionFilter)
{
@ -68,199 +61,196 @@ BaseThreadStartup(LPTHREAD_START_ROUTINE lpStartAddress,
ExitThread(uExitCode);
}
/*
* @implemented
*/
HANDLE
STDCALL
CreateThread(LPSECURITY_ATTRIBUTES lpThreadAttributes,
DWORD dwStackSize,
LPTHREAD_START_ROUTINE lpStartAddress,
LPVOID lpParameter,
DWORD dwCreationFlags,
LPDWORD lpThreadId)
{
/* Act as if we're going to create a remote thread in ourselves */
return CreateRemoteThread(NtCurrentProcess(),
lpThreadAttributes,
dwStackSize,
lpStartAddress,
lpParameter,
dwCreationFlags,
lpThreadId);
}
/*
* @implemented
*/
HANDLE STDCALL
CreateThread
(
LPSECURITY_ATTRIBUTES lpThreadAttributes,
DWORD dwStackSize,
LPTHREAD_START_ROUTINE lpStartAddress,
LPVOID lpParameter,
DWORD dwCreationFlags,
LPDWORD lpThreadId
)
HANDLE
STDCALL
CreateRemoteThread(HANDLE hProcess,
LPSECURITY_ATTRIBUTES lpThreadAttributes,
DWORD dwStackSize,
LPTHREAD_START_ROUTINE lpStartAddress,
LPVOID lpParameter,
DWORD dwCreationFlags,
LPDWORD lpThreadId)
{
return CreateRemoteThread
(
NtCurrentProcess(),
lpThreadAttributes,
dwStackSize,
lpStartAddress,
lpParameter,
dwCreationFlags,
lpThreadId
);
}
NTSTATUS Status;
INITIAL_TEB InitialTeb;
CONTEXT Context;
CLIENT_ID ClientId;
OBJECT_ATTRIBUTES LocalObjectAttributes;
POBJECT_ATTRIBUTES ObjectAttributes;
HANDLE hThread;
ULONG Dummy;
DPRINT("CreateRemoteThread: hProcess: %ld dwStackSize: %ld lpStartAddress"
": %p lpParameter: %lx, dwCreationFlags: %lx\n", hProcess,
dwStackSize, lpStartAddress, lpParameter, dwCreationFlags);
/* Clear the Context */
RtlZeroMemory(&Context, sizeof(CONTEXT));
/* Write PID */
ClientId.UniqueProcess = hProcess;
/* Create the Stack */
Status = BasepCreateStack(hProcess,
dwStackSize,
dwCreationFlags & STACK_SIZE_PARAM_IS_A_RESERVATION ?
dwStackSize : 0,
&InitialTeb);
if(!NT_SUCCESS(Status))
{
SetLastErrorByStatus(Status);
return NULL;
}
/* Create Initial Context */
BasepInitializeContext(&Context,
lpParameter,
lpStartAddress,
InitialTeb.StackBase,
1);
/* initialize the attributes for the thread object */
ObjectAttributes = BasepConvertObjectAttributes(&LocalObjectAttributes,
lpThreadAttributes,
NULL);
/* Create the Kernel Thread Object */
Status = NtCreateThread(&hThread,
THREAD_ALL_ACCESS,
ObjectAttributes,
hProcess,
&ClientId,
&Context,
&InitialTeb,
TRUE);
if(!NT_SUCCESS(Status))
{
BasepFreeStack(hProcess, &InitialTeb);
SetLastErrorByStatus(Status);
return NULL;
}
#ifdef SXS_SUPPORT_ENABLED
/* Are we in the same process? */
if (Process = NtCurrentProcess())
{
PTEB Teb;
PVOID ActivationContextStack;
PTHREAD_BASIC_INFORMATION ThreadBasicInfo;
PACTIVATION_CONTEXT_BASIC_INFORMATION ActivationCtxInfo;
ULONG_PTR Cookie;
/* Get the TEB */
Status = NtQueryInformationThread(hThread,
ThreadBasicIformation,
&ThreadBasicInfo,
sizeof(ThreadBasicInfo),
NULL);
/* Allocate the Activation Context Stack */
Status = RtlAllocateActivationContextStack(&ActivationContextStack);
Teb = ThreadBasicInfo.TebBaseAddress;
/* Save it */
Teb->ActivationContextStackPointer = ActivationContextStack;
/* Query the Context */
Status = RtlQueryInformationActivationContext(1,
0,
NULL,
ActivationContextBasicInformation,
&ActivationCtxInfo,
sizeof(ActivationCtxInfo),
NULL);
/* Does it need to be activated? */
if (!ActivationCtxInfo.hActCtx)
{
/* Activate it */
Status = RtlActivateActivationContextEx(1,
Teb,
ActivationCtxInfo.hActCtx,
&Cookie);
}
}
#endif
/* FIXME: Notify CSR */
/* Success */
if(lpThreadId) *lpThreadId = (DWORD)ClientId.UniqueThread;
/* Resume it if asked */
if (!(dwCreationFlags & CREATE_SUSPENDED))
{
NtResumeThread(hThread, &Dummy);
}
/* Return handle to thread */
return hThread;
}
/*
* @implemented
*/
HANDLE STDCALL
CreateRemoteThread
(
HANDLE hProcess,
LPSECURITY_ATTRIBUTES lpThreadAttributes,
DWORD dwStackSize,
LPTHREAD_START_ROUTINE lpStartAddress,
LPVOID lpParameter,
DWORD dwCreationFlags,
LPDWORD lpThreadId
)
VOID
STDCALL
ExitThread(DWORD uExitCode)
{
HANDLE hThread;
CLIENT_ID cidClientId;
NTSTATUS nErrCode;
ULONG_PTR nStackReserve;
ULONG_PTR nStackCommit;
OBJECT_ATTRIBUTES oaThreadAttribs;
PIMAGE_NT_HEADERS pinhHeader =
RtlImageNtHeader(NtCurrentPeb()->ImageBaseAddress);
NTSTATUS Status;
BOOLEAN LastThread;
/*
* Terminate process if this is the last thread
* of the current process
*/
Status = NtQueryInformationThread(NtCurrentThread(),
ThreadAmILastThread,
&LastThread,
sizeof(BOOLEAN),
NULL);
if (NT_SUCCESS(Status) && LastThread)
{
/* Exit the Process */
ExitProcess(uExitCode);
}
DPRINT
(
"hProcess %08X\n"
"lpThreadAttributes %08X\n"
"dwStackSize %08X\n"
"lpStartAddress %08X\n"
"lpParameter %08X\n"
"dwCreationFlags %08X\n"
"lpThreadId %08X\n",
hProcess,
lpThreadAttributes,
dwStackSize,
lpStartAddress,
lpParameter,
dwCreationFlags,
lpThreadId
);
/* FIXME: do more checks - e.g. the image may not have an optional header */
if(pinhHeader == NULL)
{
nStackReserve = 0x100000;
nStackCommit = PAGE_SIZE;
}
else
{
nStackReserve = pinhHeader->OptionalHeader.SizeOfStackReserve;
nStackCommit = pinhHeader->OptionalHeader.SizeOfStackCommit;
}
/* FIXME: this should be defined in winbase.h */
#ifndef STACK_SIZE_PARAM_IS_A_RESERVATION
#define STACK_SIZE_PARAM_IS_A_RESERVATION 0x00010000
#endif
/* use defaults */
if(dwStackSize == 0);
/* dwStackSize specifies the size to reserve */
else if(dwCreationFlags & STACK_SIZE_PARAM_IS_A_RESERVATION)
nStackReserve = dwStackSize;
/* dwStackSize specifies the size to commit */
else
nStackCommit = dwStackSize;
/* fix the stack reserve size */
if(nStackCommit > nStackReserve)
nStackReserve = ROUNDUP(nStackCommit, 0x100000);
/* initialize the attributes for the thread object */
InitializeObjectAttributes
(
&oaThreadAttribs,
NULL,
0,
NULL,
NULL
);
if(lpThreadAttributes)
{
/* make the handle inheritable */
if(lpThreadAttributes->bInheritHandle)
oaThreadAttribs.Attributes |= OBJ_INHERIT;
/* user-defined security descriptor */
oaThreadAttribs.SecurityDescriptor = lpThreadAttributes->lpSecurityDescriptor;
}
DPRINT
(
"RtlRosCreateUserThreadVa\n"
"(\n"
" ProcessHandle %p,\n"
" ObjectAttributes %p,\n"
" CreateSuspended %d,\n"
" StackZeroBits %d,\n"
" StackReserve %lu,\n"
" StackCommit %lu,\n"
" StartAddress %p,\n"
" ThreadHandle %p,\n"
" ClientId %p,\n"
" ParameterCount %u,\n"
" Parameters[0] %p,\n"
" Parameters[1] %p\n"
")\n",
hProcess,
&oaThreadAttribs,
dwCreationFlags & CREATE_SUSPENDED,
0,
nStackReserve,
nStackCommit,
BaseThreadStartup,
&hThread,
&cidClientId,
2,
lpStartAddress,
lpParameter
);
/* create the thread */
nErrCode = RtlRosCreateUserThreadVa
(
hProcess,
&oaThreadAttribs,
dwCreationFlags & CREATE_SUSPENDED,
0,
&nStackReserve,
&nStackCommit,
(PTHREAD_START_ROUTINE)BaseThreadStartup,
&hThread,
&cidClientId,
2,
lpStartAddress,
lpParameter
);
/* failure */
if(!NT_SUCCESS(nErrCode))
{
SetLastErrorByStatus(nErrCode);
return NULL;
}
DPRINT
(
"StackReserve %p\n"
"StackCommit %p\n"
"ThreadHandle %p\n"
"ClientId.UniqueThread %p\n",
nStackReserve,
nStackCommit,
hThread,
cidClientId.UniqueThread
);
/* success */
if(lpThreadId) *lpThreadId = (DWORD)cidClientId.UniqueThread;
return hThread;
/* Notify DLLs and TLS Callbacks of termination */
LdrShutdownThread();
/* Tell the Kernel to free the Stack */
NtCurrentTeb()->FreeStackOnTermination = TRUE;
NtTerminateThread(NULL, uExitCode);
/* We will never reach this place. This silences the compiler */
ExitThread(uExitCode);
}
/*
* @implemented
*/
@ -330,37 +320,6 @@ GetCurrentThreadId(VOID)
return((DWORD)(NtCurrentTeb()->Cid).UniqueThread);
}
/*
* @implemented
*/
VOID STDCALL
ExitThread(DWORD uExitCode)
{
NTSTATUS Status;
BOOLEAN LastThread;
/*
* Terminate process if this is the last thread
* of the current process
*/
Status = NtQueryInformationThread(NtCurrentThread(),
ThreadAmILastThread,
&LastThread,
sizeof(BOOLEAN),
NULL);
if (NT_SUCCESS(Status) && LastThread == TRUE)
{
ExitProcess(uExitCode);
}
/* FIXME: notify csrss of thread termination */
LdrShutdownThread();
RtlRosExitUserThread(uExitCode);
}
/*
* @implemented
*/

955
reactos/ntoskrnl/mm/process.c
View file

@ -1,483 +1,472 @@
/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS kernel
* FILE: ntoskrnl/mm/process.c
* PURPOSE: Memory functions related to Processes
*
* PROGRAMMERS: Alex Ionescu (alex@relsoft.net)
*/
/* INCLUDES *****************************************************************/
#include <ntoskrnl.h>
#define NDEBUG
#include <internal/debug.h>
extern ULONG NtMajorVersion;
extern ULONG NtMinorVersion;
extern ULONG NtOSCSDVersion;
/* FUNCTIONS *****************************************************************/
PVOID
STDCALL
MiCreatePebOrTeb(PEPROCESS Process,
PVOID BaseAddress)
{
NTSTATUS Status;
PMADDRESS_SPACE ProcessAddressSpace = &Process->AddressSpace;
PMEMORY_AREA MemoryArea;
PHYSICAL_ADDRESS BoundaryAddressMultiple;
PVOID AllocatedBase = BaseAddress;
BoundaryAddressMultiple.QuadPart = 0;
/* Acquire the Lock */
MmLockAddressSpace(ProcessAddressSpace);
/*
* Create a Peb or Teb.
* Loop until it works, decreasing by PAGE_SIZE each time. The logic here
* is that a PEB allocation should never fail since the address is free,
* while TEB allocation can fail, and we should simply try the address
* below. Is there a nicer way of doing this automagically? (ie: findning)
* a gap region? -- Alex
*/
do {
DPRINT("Trying to allocate: %x\n", AllocatedBase);
Status = MmCreateMemoryArea(Process,
ProcessAddressSpace,
MEMORY_AREA_PEB_OR_TEB,
&AllocatedBase,
PAGE_SIZE,
PAGE_READWRITE,
&MemoryArea,
TRUE,
FALSE,
BoundaryAddressMultiple);
AllocatedBase = RVA(AllocatedBase, -PAGE_SIZE);
} while (Status != STATUS_SUCCESS);
/* Initialize the Region */
MmInitialiseRegion(&MemoryArea->Data.VirtualMemoryData.RegionListHead,
PAGE_SIZE,
MEM_COMMIT,
PAGE_READWRITE);
/* Reserve the pages */
MmReserveSwapPages(PAGE_SIZE);
/* Unlock Address Space */
DPRINT("Returning\n");
MmUnlockAddressSpace(ProcessAddressSpace);
return RVA(AllocatedBase, PAGE_SIZE);
}
VOID
MiFreeStackPage(PVOID Context,
MEMORY_AREA* MemoryArea,
PVOID Address,
PFN_TYPE Page,
SWAPENTRY SwapEntry,
BOOLEAN Dirty)
{
ASSERT(SwapEntry == 0);
if (Page) MmReleasePageMemoryConsumer(MC_NPPOOL, Page);
}
VOID
STDCALL
MmDeleteKernelStack(PVOID Stack,
BOOLEAN GuiStack)
{
/* Lock the Address Space */
MmLockAddressSpace(MmGetKernelAddressSpace());
/* Delete the Stack */
MmFreeMemoryAreaByPtr(MmGetKernelAddressSpace(),
Stack,
MiFreeStackPage,
NULL);
/* Unlock the Address Space */
MmUnlockAddressSpace(MmGetKernelAddressSpace());
}
VOID
MiFreePebPage(PVOID Context,
MEMORY_AREA* MemoryArea,
PVOID Address,
PFN_TYPE Page,
SWAPENTRY SwapEntry,
BOOLEAN Dirty)
{
PEPROCESS Process = (PEPROCESS)Context;
if (Page != 0)
{
SWAPENTRY SavedSwapEntry;
SavedSwapEntry = MmGetSavedSwapEntryPage(Page);
if (SavedSwapEntry != 0)
{
MmFreeSwapPage(SavedSwapEntry);
MmSetSavedSwapEntryPage(Page, 0);
}
MmDeleteRmap(Page, Process, Address);
MmReleasePageMemoryConsumer(MC_USER, Page);
}
else if (SwapEntry != 0)
{
MmFreeSwapPage(SwapEntry);
}
}
VOID
STDCALL
MmDeleteTeb(PEPROCESS Process,
PTEB Teb)
{
PMADDRESS_SPACE ProcessAddressSpace = &Process->AddressSpace;
/* Lock the Address Space */
MmLockAddressSpace(ProcessAddressSpace);
/* Delete the Stack */
MmFreeMemoryAreaByPtr(ProcessAddressSpace,
Teb,
MiFreePebPage,
Process);
/* Unlock the Address Space */
MmUnlockAddressSpace(ProcessAddressSpace);
}
PVOID
STDCALL
MmCreateKernelStack(BOOLEAN GuiStack)
{
PMEMORY_AREA StackArea;
ULONG i;
PHYSICAL_ADDRESS BoundaryAddressMultiple;
PFN_TYPE Page[MM_STACK_SIZE / PAGE_SIZE];
PVOID KernelStack = NULL;
NTSTATUS Status;
/* Initialize the Boundary Address */
BoundaryAddressMultiple.QuadPart = 0;
/* Lock the Kernel Address Space */
MmLockAddressSpace(MmGetKernelAddressSpace());
/* Create a MAREA for the Kernel Stack */
Status = MmCreateMemoryArea(NULL,
MmGetKernelAddressSpace(),
MEMORY_AREA_KERNEL_STACK,
&KernelStack,
MM_STACK_SIZE,
0,
&StackArea,
FALSE,
FALSE,
BoundaryAddressMultiple);
/* Unlock the Address Space */
MmUnlockAddressSpace(MmGetKernelAddressSpace());
/* Check for Success */
if (!NT_SUCCESS(Status))
{
DPRINT1("Failed to create thread stack\n");
KEBUGCHECK(0);
}
/* Mark the Stack in use */
for (i = 0; i < (MM_STACK_SIZE / PAGE_SIZE); i++)
{
Status = MmRequestPageMemoryConsumer(MC_NPPOOL, TRUE, &Page[i]);
}
/* Create a Virtual Mapping for it */
Status = MmCreateVirtualMapping(NULL,
KernelStack,
PAGE_READWRITE,
Page,
MM_STACK_SIZE / PAGE_SIZE);
/* Check for success */
if (!NT_SUCCESS(Status))
{
DPRINT1("Could not create Virtual Mapping for Kernel Stack\n");
KEBUGCHECK(0);
}
return KernelStack;
}
NTSTATUS
STDCALL
MmCreatePeb(PEPROCESS Process)
{
PPEB Peb = NULL;
LARGE_INTEGER SectionOffset;
ULONG ViewSize = 0;
PVOID TableBase = NULL;
NTSTATUS Status;
SectionOffset.QuadPart = (ULONGLONG)0;
DPRINT("MmCreatePeb\n");
/* Map NLS Tables */
DPRINT("Mapping NLS\n");
Status = MmMapViewOfSection(NlsSectionObject,
Process,
&TableBase,
0,
0,
&SectionOffset,
&ViewSize,
ViewShare,
MEM_TOP_DOWN,
PAGE_READONLY);
if (!NT_SUCCESS(Status))
{
DPRINT1("MmMapViewOfSection() failed (Status %lx)\n", Status);
return(Status);
}
DPRINT("TableBase %p ViewSize %lx\n", TableBase, ViewSize);
/* Attach to Process */
KeAttachProcess(&Process->Pcb);
/* Allocate the PEB */
Peb = MiCreatePebOrTeb(Process, (PVOID)PEB_BASE);
/* Initialize the PEB */
DPRINT("Allocated: %x\n", Peb);
RtlZeroMemory(Peb, sizeof(PEB));
/* Set up data */
DPRINT("Setting up PEB\n");
Peb->ImageBaseAddress = Process->SectionBaseAddress;
Peb->OSMajorVersion = NtMajorVersion;
Peb->OSMinorVersion = NtMinorVersion;
Peb->OSBuildNumber = 2195;
Peb->OSPlatformId = 2; //VER_PLATFORM_WIN32_NT;
Peb->OSCSDVersion = NtOSCSDVersion;
Peb->AnsiCodePageData = (char*)TableBase + NlsAnsiTableOffset;
Peb->OemCodePageData = (char*)TableBase + NlsOemTableOffset;
Peb->UnicodeCaseTableData = (char*)TableBase + NlsUnicodeTableOffset;
Peb->NumberOfProcessors = KeNumberProcessors;
Peb->BeingDebugged = (BOOLEAN)(Process->DebugPort != NULL ? TRUE : FALSE);
Process->Peb = Peb;
KeDetachProcess();
DPRINT("MmCreatePeb: Peb created at %p\n", Peb);
return STATUS_SUCCESS;
}
PTEB
STDCALL
MmCreateTeb(PEPROCESS Process,
PCLIENT_ID ClientId,
PINITIAL_TEB InitialTeb)
{
PTEB Teb;
BOOLEAN Attached = FALSE;
/* Attach to the process */
DPRINT("MmCreateTeb\n");
if (Process != PsGetCurrentProcess())
{
/* Attach to Target */
KeAttachProcess(&Process->Pcb);
Attached = TRUE;
}
/* Allocate the TEB */
Teb = MiCreatePebOrTeb(Process, (PVOID)TEB_BASE);
/* Initialize the PEB */
RtlZeroMemory(Teb, sizeof(TEB));
/* Set TIB Data */
Teb->Tib.ExceptionList = (PVOID)0xFFFFFFFF;
Teb->Tib.Version = 1;
Teb->Tib.Self = (PNT_TIB)Teb;
/* Set TEB Data */
Teb->Cid = *ClientId;
Teb->RealClientId = *ClientId;
Teb->ProcessEnvironmentBlock = Process->Peb;
Teb->CurrentLocale = PsDefaultThreadLocaleId;
/* Store stack information from InitialTeb */
if(InitialTeb != NULL)
{
/* fixed-size stack */
if(InitialTeb->PreviousStackBase && InitialTeb->PreviousStackLimit)
{
Teb->Tib.StackBase = InitialTeb->PreviousStackBase;
Teb->Tib.StackLimit = InitialTeb->PreviousStackLimit;
Teb->DeallocationStack = InitialTeb->PreviousStackLimit;
}
/* expandable stack */
else
{
Teb->Tib.StackBase = InitialTeb->StackBase;
Teb->Tib.StackLimit = InitialTeb->StackLimit;
Teb->DeallocationStack = InitialTeb->AllocatedStackBase;
}
}
/* Return TEB Address */
DPRINT("Allocated: %x\n", Teb);
if (Attached) KeDetachProcess();
return Teb;
}
NTSTATUS
STDCALL
MmCreateProcessAddressSpace(IN PEPROCESS Process,
IN PSECTION_OBJECT Section OPTIONAL)
{
NTSTATUS Status;
PMADDRESS_SPACE ProcessAddressSpace = &Process->AddressSpace;
PVOID BaseAddress;
PMEMORY_AREA MemoryArea;
PHYSICAL_ADDRESS BoundaryAddressMultiple;
ULONG ViewSize = 0;
PVOID ImageBase = 0;
BoundaryAddressMultiple.QuadPart = 0;
/* Initialize the Addresss Space */
MmInitializeAddressSpace(Process, ProcessAddressSpace);
/* Acquire the Lock */
MmLockAddressSpace(ProcessAddressSpace);
/* Protect the highest 64KB of the process address space */
BaseAddress = (PVOID)MmUserProbeAddress;
Status = MmCreateMemoryArea(Process,
ProcessAddressSpace,
MEMORY_AREA_NO_ACCESS,
&BaseAddress,
0x10000,
PAGE_NOACCESS,
&MemoryArea,
FALSE,
FALSE,
BoundaryAddressMultiple);
if (!NT_SUCCESS(Status))
{
DPRINT1("Failed to protect last 64KB\n");
goto exit;
}
/* Protect the 60KB above the shared user page */
BaseAddress = (char*)USER_SHARED_DATA + PAGE_SIZE;
Status = MmCreateMemoryArea(Process,
ProcessAddressSpace,
MEMORY_AREA_NO_ACCESS,
&BaseAddress,
0x10000 - PAGE_SIZE,
PAGE_NOACCESS,
&MemoryArea,
FALSE,
FALSE,
BoundaryAddressMultiple);
if (!NT_SUCCESS(Status))
{
DPRINT1("Failed to protect the memory above the shared user page\n");
goto exit;
}
/* Create the shared data page */
BaseAddress = (PVOID)USER_SHARED_DATA;
Status = MmCreateMemoryArea(Process,
ProcessAddressSpace,
MEMORY_AREA_SHARED_DATA,
&BaseAddress,
PAGE_SIZE,
PAGE_READONLY,
&MemoryArea,
FALSE,
FALSE,
BoundaryAddressMultiple);
if (!NT_SUCCESS(Status))
{
DPRINT1("Failed to create Shared User Data\n");
goto exit;
}
/* Check if there's a Section Object */
if (Section)
{
UNICODE_STRING FileName;
PWCHAR szSrc;
PCHAR szDest;
USHORT lnFName = 0;
/* Unlock the Address Space */
DPRINT("Unlocking\n");
MmUnlockAddressSpace(ProcessAddressSpace);
DPRINT("Mapping process image. Section: %p, Process: %p, ImageBase: %p\n",
Section, Process, &ImageBase);
Status = MmMapViewOfSection(Section,
Process,
(PVOID*)&ImageBase,
0,
0,
NULL,
&ViewSize,
0,
MEM_COMMIT,
PAGE_READWRITE);
if (!NT_SUCCESS(Status))
{
DPRINT1("Failed to map process Image\n");
ObDereferenceObject(Section);
goto exit;
}
ObDereferenceObject(Section);
/* Save the pointer */
Process->SectionBaseAddress = ImageBase;
/* Determine the image file name and save it to EPROCESS */
DPRINT("Getting Image name\n");
FileName = Section->FileObject->FileName;
szSrc = (PWCHAR)(FileName.Buffer + (FileName.Length / sizeof(WCHAR)) - 1);
while(szSrc >= FileName.Buffer)
{
if(*szSrc == L'\\')
{
szSrc++;
break;
}
else
{
szSrc--;
lnFName++;
}
}
/* Copy the to the process and truncate it to 15 characters if necessary */
DPRINT("Copying and truncating\n");
szDest = Process->ImageFileName;
lnFName = min(lnFName, sizeof(Process->ImageFileName) - 1);
while(lnFName-- > 0) *(szDest++) = (UCHAR)*(szSrc++);
/* Return status to caller */
return Status;
}
exit:
/* Unlock the Address Space */
DPRINT("Unlocking\n");
MmUnlockAddressSpace(ProcessAddressSpace);
/* Return status to caller */
return Status;
}
/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS kernel
* FILE: ntoskrnl/mm/process.c
* PURPOSE: Memory functions related to Processes
*
* PROGRAMMERS: Alex Ionescu (alex@relsoft.net)
*/
/* INCLUDES *****************************************************************/
#include <ntoskrnl.h>
#define NDEBUG
#include <internal/debug.h>
extern ULONG NtMajorVersion;
extern ULONG NtMinorVersion;
extern ULONG NtOSCSDVersion;
/* FUNCTIONS *****************************************************************/
PVOID
STDCALL
MiCreatePebOrTeb(PEPROCESS Process,
PVOID BaseAddress)
{
NTSTATUS Status;
PMADDRESS_SPACE ProcessAddressSpace = &Process->AddressSpace;
PMEMORY_AREA MemoryArea;
PHYSICAL_ADDRESS BoundaryAddressMultiple;
PVOID AllocatedBase = BaseAddress;
BoundaryAddressMultiple.QuadPart = 0;
/* Acquire the Lock */
MmLockAddressSpace(ProcessAddressSpace);
/*
* Create a Peb or Teb.
* Loop until it works, decreasing by PAGE_SIZE each time. The logic here
* is that a PEB allocation should never fail since the address is free,
* while TEB allocation can fail, and we should simply try the address
* below. Is there a nicer way of doing this automagically? (ie: findning)
* a gap region? -- Alex
*/
do {
DPRINT("Trying to allocate: %x\n", AllocatedBase);
Status = MmCreateMemoryArea(Process,
ProcessAddressSpace,
MEMORY_AREA_PEB_OR_TEB,
&AllocatedBase,
PAGE_SIZE,
PAGE_READWRITE,
&MemoryArea,
TRUE,
FALSE,
BoundaryAddressMultiple);
AllocatedBase = RVA(AllocatedBase, -PAGE_SIZE);
} while (Status != STATUS_SUCCESS);
/* Initialize the Region */
MmInitialiseRegion(&MemoryArea->Data.VirtualMemoryData.RegionListHead,
PAGE_SIZE,
MEM_COMMIT,
PAGE_READWRITE);
/* Reserve the pages */
MmReserveSwapPages(PAGE_SIZE);
/* Unlock Address Space */
DPRINT("Returning\n");
MmUnlockAddressSpace(ProcessAddressSpace);
return RVA(AllocatedBase, PAGE_SIZE);
}
VOID
MiFreeStackPage(PVOID Context,
MEMORY_AREA* MemoryArea,
PVOID Address,
PFN_TYPE Page,
SWAPENTRY SwapEntry,
BOOLEAN Dirty)
{
ASSERT(SwapEntry == 0);
if (Page) MmReleasePageMemoryConsumer(MC_NPPOOL, Page);
}
VOID
STDCALL
MmDeleteKernelStack(PVOID Stack,
BOOLEAN GuiStack)
{
/* Lock the Address Space */
MmLockAddressSpace(MmGetKernelAddressSpace());
/* Delete the Stack */
MmFreeMemoryAreaByPtr(MmGetKernelAddressSpace(),
Stack,
MiFreeStackPage,
NULL);
/* Unlock the Address Space */
MmUnlockAddressSpace(MmGetKernelAddressSpace());
}
VOID
MiFreePebPage(PVOID Context,
MEMORY_AREA* MemoryArea,
PVOID Address,
PFN_TYPE Page,
SWAPENTRY SwapEntry,
BOOLEAN Dirty)
{
PEPROCESS Process = (PEPROCESS)Context;
if (Page != 0)
{
SWAPENTRY SavedSwapEntry;
SavedSwapEntry = MmGetSavedSwapEntryPage(Page);
if (SavedSwapEntry != 0)
{
MmFreeSwapPage(SavedSwapEntry);
MmSetSavedSwapEntryPage(Page, 0);
}
MmDeleteRmap(Page, Process, Address);
MmReleasePageMemoryConsumer(MC_USER, Page);
}
else if (SwapEntry != 0)
{
MmFreeSwapPage(SwapEntry);
}
}
VOID
STDCALL
MmDeleteTeb(PEPROCESS Process,
PTEB Teb)
{
PMADDRESS_SPACE ProcessAddressSpace = &Process->AddressSpace;
/* Lock the Address Space */
MmLockAddressSpace(ProcessAddressSpace);
/* Delete the Stack */
MmFreeMemoryAreaByPtr(ProcessAddressSpace,
Teb,
MiFreePebPage,
Process);
/* Unlock the Address Space */
MmUnlockAddressSpace(ProcessAddressSpace);
}
PVOID
STDCALL
MmCreateKernelStack(BOOLEAN GuiStack)
{
PMEMORY_AREA StackArea;
ULONG i;
PHYSICAL_ADDRESS BoundaryAddressMultiple;
PFN_TYPE Page[MM_STACK_SIZE / PAGE_SIZE];
PVOID KernelStack = NULL;
NTSTATUS Status;
/* Initialize the Boundary Address */
BoundaryAddressMultiple.QuadPart = 0;
/* Lock the Kernel Address Space */
MmLockAddressSpace(MmGetKernelAddressSpace());
/* Create a MAREA for the Kernel Stack */
Status = MmCreateMemoryArea(NULL,
MmGetKernelAddressSpace(),
MEMORY_AREA_KERNEL_STACK,
&KernelStack,
MM_STACK_SIZE,
0,
&StackArea,
FALSE,
FALSE,
BoundaryAddressMultiple);
/* Unlock the Address Space */
MmUnlockAddressSpace(MmGetKernelAddressSpace());
/* Check for Success */
if (!NT_SUCCESS(Status))
{
DPRINT1("Failed to create thread stack\n");
KEBUGCHECK(0);
}
/* Mark the Stack in use */
for (i = 0; i < (MM_STACK_SIZE / PAGE_SIZE); i++)
{
Status = MmRequestPageMemoryConsumer(MC_NPPOOL, TRUE, &Page[i]);
}
/* Create a Virtual Mapping for it */
Status = MmCreateVirtualMapping(NULL,
KernelStack,
PAGE_READWRITE,
Page,
MM_STACK_SIZE / PAGE_SIZE);
/* Check for success */
if (!NT_SUCCESS(Status))
{
DPRINT1("Could not create Virtual Mapping for Kernel Stack\n");
KEBUGCHECK(0);
}
return KernelStack;
}
NTSTATUS
STDCALL
MmCreatePeb(PEPROCESS Process)
{
PPEB Peb = NULL;
LARGE_INTEGER SectionOffset;
ULONG ViewSize = 0;
PVOID TableBase = NULL;
NTSTATUS Status;
SectionOffset.QuadPart = (ULONGLONG)0;
DPRINT("MmCreatePeb\n");
/* Map NLS Tables */
DPRINT("Mapping NLS\n");
Status = MmMapViewOfSection(NlsSectionObject,
Process,
&TableBase,
0,
0,
&SectionOffset,
&ViewSize,
ViewShare,
MEM_TOP_DOWN,
PAGE_READONLY);
if (!NT_SUCCESS(Status))
{
DPRINT1("MmMapViewOfSection() failed (Status %lx)\n", Status);
return(Status);
}
DPRINT("TableBase %p ViewSize %lx\n", TableBase, ViewSize);
/* Attach to Process */
KeAttachProcess(&Process->Pcb);
/* Allocate the PEB */
Peb = MiCreatePebOrTeb(Process, (PVOID)PEB_BASE);
/* Initialize the PEB */
DPRINT("Allocated: %x\n", Peb);
RtlZeroMemory(Peb, sizeof(PEB));
/* Set up data */
DPRINT("Setting up PEB\n");
Peb->ImageBaseAddress = Process->SectionBaseAddress;
Peb->OSMajorVersion = NtMajorVersion;
Peb->OSMinorVersion = NtMinorVersion;
Peb->OSBuildNumber = 2195;
Peb->OSPlatformId = 2; //VER_PLATFORM_WIN32_NT;
Peb->OSCSDVersion = NtOSCSDVersion;
Peb->AnsiCodePageData = (char*)TableBase + NlsAnsiTableOffset;
Peb->OemCodePageData = (char*)TableBase + NlsOemTableOffset;
Peb->UnicodeCaseTableData = (char*)TableBase + NlsUnicodeTableOffset;
Peb->NumberOfProcessors = KeNumberProcessors;
Peb->BeingDebugged = (BOOLEAN)(Process->DebugPort != NULL ? TRUE : FALSE);
Process->Peb = Peb;
KeDetachProcess();
DPRINT("MmCreatePeb: Peb created at %p\n", Peb);
return STATUS_SUCCESS;
}
PTEB
STDCALL
MmCreateTeb(PEPROCESS Process,
PCLIENT_ID ClientId,
PINITIAL_TEB InitialTeb)
{
PTEB Teb;
BOOLEAN Attached = FALSE;
/* Attach to the process */
DPRINT("MmCreateTeb\n");
if (Process != PsGetCurrentProcess())
{
/* Attach to Target */
KeAttachProcess(&Process->Pcb);
Attached = TRUE;
}
/* Allocate the TEB */
Teb = MiCreatePebOrTeb(Process, (PVOID)TEB_BASE);
/* Initialize the PEB */
RtlZeroMemory(Teb, sizeof(TEB));
/* Set TIB Data */
Teb->Tib.ExceptionList = (PVOID)0xFFFFFFFF;
Teb->Tib.Version = 1;
Teb->Tib.Self = (PNT_TIB)Teb;
/* Set TEB Data */
Teb->Cid = *ClientId;
Teb->RealClientId = *ClientId;
Teb->ProcessEnvironmentBlock = Process->Peb;
Teb->CurrentLocale = PsDefaultThreadLocaleId;
/* Store stack information from InitialTeb */
if(InitialTeb != NULL)
{
Teb->Tib.StackBase = InitialTeb->StackBase;
Teb->Tib.StackLimit = InitialTeb->StackLimit;
Teb->DeallocationStack = InitialTeb->AllocatedStackBase;
}
/* Return TEB Address */
DPRINT("Allocated: %x\n", Teb);
if (Attached) KeDetachProcess();
return Teb;
}
NTSTATUS
STDCALL
MmCreateProcessAddressSpace(IN PEPROCESS Process,
IN PSECTION_OBJECT Section OPTIONAL)
{
NTSTATUS Status;
PMADDRESS_SPACE ProcessAddressSpace = &Process->AddressSpace;
PVOID BaseAddress;
PMEMORY_AREA MemoryArea;
PHYSICAL_ADDRESS BoundaryAddressMultiple;
ULONG ViewSize = 0;
PVOID ImageBase = 0;
BoundaryAddressMultiple.QuadPart = 0;
/* Initialize the Addresss Space */
MmInitializeAddressSpace(Process, ProcessAddressSpace);
/* Acquire the Lock */
MmLockAddressSpace(ProcessAddressSpace);
/* Protect the highest 64KB of the process address space */
BaseAddress = (PVOID)MmUserProbeAddress;
Status = MmCreateMemoryArea(Process,
ProcessAddressSpace,
MEMORY_AREA_NO_ACCESS,
&BaseAddress,
0x10000,
PAGE_NOACCESS,
&MemoryArea,
FALSE,
FALSE,
BoundaryAddressMultiple);
if (!NT_SUCCESS(Status))
{
DPRINT1("Failed to protect last 64KB\n");
goto exit;
}
/* Protect the 60KB above the shared user page */
BaseAddress = (char*)USER_SHARED_DATA + PAGE_SIZE;
Status = MmCreateMemoryArea(Process,
ProcessAddressSpace,
MEMORY_AREA_NO_ACCESS,
&BaseAddress,
0x10000 - PAGE_SIZE,
PAGE_NOACCESS,
&MemoryArea,
FALSE,
FALSE,
BoundaryAddressMultiple);
if (!NT_SUCCESS(Status))
{
DPRINT1("Failed to protect the memory above the shared user page\n");
goto exit;
}
/* Create the shared data page */
BaseAddress = (PVOID)USER_SHARED_DATA;
Status = MmCreateMemoryArea(Process,
ProcessAddressSpace,
MEMORY_AREA_SHARED_DATA,
&BaseAddress,
PAGE_SIZE,
PAGE_READONLY,
&MemoryArea,
FALSE,
FALSE,
BoundaryAddressMultiple);
if (!NT_SUCCESS(Status))
{
DPRINT1("Failed to create Shared User Data\n");
goto exit;
}
/* Check if there's a Section Object */
if (Section)
{
UNICODE_STRING FileName;
PWCHAR szSrc;
PCHAR szDest;
USHORT lnFName = 0;
/* Unlock the Address Space */
DPRINT("Unlocking\n");
MmUnlockAddressSpace(ProcessAddressSpace);
DPRINT("Mapping process image. Section: %p, Process: %p, ImageBase: %p\n",
Section, Process, &ImageBase);
Status = MmMapViewOfSection(Section,
Process,
(PVOID*)&ImageBase,
0,
0,
NULL,
&ViewSize,
0,
MEM_COMMIT,
PAGE_READWRITE);
if (!NT_SUCCESS(Status))
{
DPRINT1("Failed to map process Image\n");
ObDereferenceObject(Section);
goto exit;
}
ObDereferenceObject(Section);
/* Save the pointer */
Process->SectionBaseAddress = ImageBase;
/* Determine the image file name and save it to EPROCESS */
DPRINT("Getting Image name\n");
FileName = Section->FileObject->FileName;
szSrc = (PWCHAR)(FileName.Buffer + (FileName.Length / sizeof(WCHAR)) - 1);
while(szSrc >= FileName.Buffer)
{
if(*szSrc == L'\\')
{
szSrc++;
break;
}
else
{
szSrc--;
lnFName++;
}
}
/* Copy the to the process and truncate it to 15 characters if necessary */
DPRINT("Copying and truncating\n");
szDest = Process->ImageFileName;
lnFName = min(lnFName, sizeof(Process->ImageFileName) - 1);
while(lnFName-- > 0) *(szDest++) = (UCHAR)*(szSrc++);
/* Return status to caller */
return Status;
}
exit:
/* Unlock the Address Space */
DPRINT("Unlocking\n");
MmUnlockAddressSpace(ProcessAddressSpace);
/* Return status to caller */
return Status;
}