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|
/*
* The PCI Library -- Access to i386 I/O ports on Windows
*
* Copyright (c) 2004 Alexander Stock <stock.alexander@gmx.de>
* Copyright (c) 2006 Martin Mares <mj@ucw.cz>
* Copyright (c) 2021 Pali Rohár <pali@kernel.org>
*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
#include <io.h>
#include <windows.h>
#include <aclapi.h>
#ifdef _MSC_VER
/* MSVC compiler provides I/O port intrinsics for both 32 and 64-bit modes. */
#pragma intrinsic(_outp)
#pragma intrinsic(_outpw)
#pragma intrinsic(_outpd)
#pragma intrinsic(_inp)
#pragma intrinsic(_inpw)
#pragma intrinsic(_inpd)
#elif defined(_WIN64) || defined(_UCRT)
/*
* For other compilers I/O port intrinsics are available in <intrin.h> header
* file either as inline/external functions or macros. Beware that <intrin.h>
* names are different than MSVC intrinsics names and glibc function names.
* Usage of <intrin.h> is also the prefered way for 64-bit mode or when using
* new UCRT library.
*/
#include <intrin.h>
#define _outp(x,y) __outbyte(x,y)
#define _outpw(x,y) __outword(x,y)
#define _outpd(x,y) __outdword(x,y)
#define _inp(x) __inbyte(x)
#define _inpw(x) __inword(x)
#define _inpd(x) __indword(x)
#elif defined(__CRTDLL__) || (defined(__MSVCRT_VERSION__) && __MSVCRT_VERSION__ < 0x400)
/*
* Old 32-bit CRTDLL library and pre-4.00 MSVCRT library do not provide I/O
* port functions. As these libraries exist only in 32-bit mode variant,
* implement I/O port functions via 32-bit inline assembly.
*/
static inline int _outp(unsigned short port, int databyte)
{
asm volatile ("outb %b0, %w1" : : "a" (databyte), "Nd" (port));
return databyte;
}
static inline unsigned short _outpw(unsigned short port, unsigned short dataword)
{
asm volatile ("outw %w0, %w1" : : "a" (dataword), "Nd" (port));
return dataword;
}
static inline unsigned long _outpd(unsigned short port, unsigned long dataword)
{
asm volatile ("outl %0, %w1" : : "a" (dataword), "Nd" (port));
return dataword;
}
static inline int _inp(unsigned short port)
{
unsigned char ret;
asm volatile ("inb %w1, %0" : "=a" (ret) : "Nd" (port));
return ret;
}
static inline unsigned short _inpw(unsigned short port)
{
unsigned short ret;
asm volatile ("inw %w1, %0" : "=a" (ret) : "Nd" (port));
return ret;
}
static inline unsigned long _inpd(unsigned short port)
{
unsigned long ret;
asm volatile ("inl %w1, %0" : "=a" (ret) : "Nd" (port));
return ret;
}
#elif !defined(__GNUC__)
/*
* Old 32-bit MSVCRT (non-UCRT) library provides I/O port functions. Function
* prototypes are defined in <conio.h> header file but they are missing in
* some MinGW toolchains. So for GCC compiler define them manually.
*/
#include <conio.h>
#else
int _outp(unsigned short port, int databyte);
unsigned short _outpw(unsigned short port, unsigned short dataword);
unsigned long _outpd(unsigned short port, unsigned long dataword);
int _inp(unsigned short port);
unsigned short _inpw(unsigned short port);
unsigned long _inpd(unsigned short port);
#endif
#define outb(x,y) _outp(y,x)
#define outw(x,y) _outpw(y,x)
#define outl(x,y) _outpd(y,x)
#define inb(x) _inp(x)
#define inw(x) _inpw(x)
#define inl(x) _inpd(x)
/*
* Define __readeflags() for MSVC and GCC compilers.
* MSVC since version 14.00 included in WDK 6001 and since version 15.00
* included in VS 2008 provides __readeflags() intrinsic for both 32 and 64-bit
* modes. WDK 6001 defines macro __BUILDMACHINE__ to value WinDDK. VS 2008 does
* not define this macro at all. MSVC throws error if name of user defined
* function conflicts with some MSVC intrinsic.
* MSVC supports inline assembly via __asm keyword in 32-bit mode only.
* GCC version 4.9.0 and higher provides __builtin_ia32_readeflags_uXX()
* builtin for XX-mode. This builtin is also available as __readeflags()
* function indirectly via <x86intrin.h> header file.
*/
#if defined(_MSC_VER) && (_MSC_VER >= 1500 || (_MSC_VER >= 1400 && defined(__BUILDMACHINE__)))
#pragma intrinsic(__readeflags)
#elif defined(__GNUC__) && ((__GNUC__ == 4 && __GNUC_MINOR__ >= 9) || (__GNUC__ > 4))
#include <x86intrin.h>
#elif defined(_MSC_VER) && defined(_M_IX86)
static inline unsigned int
__readeflags(void)
{
__asm pushfd;
__asm pop eax;
}
#elif defined(__GNUC__)
static inline unsigned
#ifdef __x86_64__
long long
#endif
int
__readeflags(void)
{
unsigned
#ifdef __x86_64__
long long
#endif
int eflags;
asm volatile ("pushf\n\tpop %0\n" : "=r" (eflags));
return eflags;
}
#else
#error "Unsupported compiler"
#endif
/* Read IOPL of the current process, IOPL is stored in eflag bits [13:12]. */
#define read_iopl() ((__readeflags() >> 12) & 0x3)
/* Unfortunately i586-mingw32msvc toolchain does not provide this constant. */
#ifndef PROCESS_QUERY_LIMITED_INFORMATION
#define PROCESS_QUERY_LIMITED_INFORMATION 0x1000
#endif
/* Unfortunately some toolchains do not provide this constant. */
#ifndef SE_IMPERSONATE_NAME
#define SE_IMPERSONATE_NAME TEXT("SeImpersonatePrivilege")
#endif
/*
* These psapi functions are available in kernel32.dll library with K32 prefix
* on Windows 7 and higher systems. On older Windows systems these functions are
* available in psapi.dll libary without K32 prefix. So resolve pointers to
* these functions dynamically at runtime from the available system library.
* Function GetProcessImageFileNameW() is not available on Windows 2000 and
* older systems.
*/
typedef BOOL (WINAPI *EnumProcessesProt)(DWORD *lpidProcess, DWORD cb, DWORD *cbNeeded);
typedef DWORD (WINAPI *GetProcessImageFileNameWProt)(HANDLE hProcess, LPWSTR lpImageFileName, DWORD nSize);
typedef DWORD (WINAPI *GetModuleFileNameExWProt)(HANDLE hProcess, HMODULE hModule, LPWSTR lpImageFileName, DWORD nSize);
/*
* These aclapi functions are available in advapi.dll library on Windows NT 4.0
* and higher systems.
*/
typedef DWORD (WINAPI *GetSecurityInfoProt)(HANDLE handle, SE_OBJECT_TYPE ObjectType, SECURITY_INFORMATION SecurityInfo, PSID *ppsidOwner, PSID *ppsidGroup, PACL *ppDacl, PACL *ppSacl, PSECURITY_DESCRIPTOR *ppSecurityDescriptor);
typedef DWORD (WINAPI *SetSecurityInfoProt)(HANDLE handle, SE_OBJECT_TYPE ObjectType, SECURITY_INFORMATION SecurityInfo, PSID psidOwner, PSID psidGroup, PACL pDacl, PACL pSacl);
typedef DWORD (WINAPI *SetEntriesInAclProt)(ULONG cCountOfExplicitEntries, PEXPLICIT_ACCESS pListOfExplicitEntries, PACL OldAcl, PACL *NewAcl);
/*
* This errhandlingapi function is available in kernel32.dll library on
* Windows 7 and higher systems.
*/
typedef BOOL (WINAPI *SetThreadErrorModeProt)(DWORD dwNewMode, LPDWORD lpOldMode);
/*
* Unfortunately NtSetInformationProcess() function, ProcessUserModeIOPL
* constant and all other helpers for its usage are not specified in any
* standard WinAPI header file. So define all of required constants and types.
* Function NtSetInformationProcess() is available in ntdll.dll library on all
* Windows systems but marked as it can be removed in some future version.
*/
#ifndef NTSTATUS
#define NTSTATUS LONG
#endif
#ifndef STATUS_NOT_IMPLEMENTED
#define STATUS_NOT_IMPLEMENTED (NTSTATUS)0xC0000002
#endif
#ifndef STATUS_PRIVILEGE_NOT_HELD
#define STATUS_PRIVILEGE_NOT_HELD (NTSTATUS)0xC0000061
#endif
#ifndef PROCESSINFOCLASS
#define PROCESSINFOCLASS DWORD
#endif
#ifndef ProcessUserModeIOPL
#define ProcessUserModeIOPL 16
#endif
typedef NTSTATUS (NTAPI *NtSetInformationProcessProt)(HANDLE ProcessHandle, PROCESSINFOCLASS ProcessInformationClass, PVOID ProcessInformation, ULONG ProcessInformationLength);
/*
* Check if the current thread has particular privilege in current active access
* token. Case when it not possible to determinate it (e.g. current thread does
* not have permission to open its own current active access token) is evaluated
* as thread does not have that privilege.
*/
static BOOL
have_privilege(LUID luid_privilege)
{
PRIVILEGE_SET priv;
HANDLE token;
BOOL ret;
/*
* If the current thread does not have active access token then thread
* uses primary process access token for all permission checks.
*/
if (!OpenThreadToken(GetCurrentThread(), TOKEN_QUERY, TRUE, &token) &&
(GetLastError() != ERROR_NO_TOKEN ||
!OpenProcessToken(GetCurrentProcess(), TOKEN_QUERY, &token)))
return FALSE;
priv.PrivilegeCount = 1;
priv.Control = PRIVILEGE_SET_ALL_NECESSARY;
priv.Privilege[0].Luid = luid_privilege;
priv.Privilege[0].Attributes = SE_PRIVILEGE_ENABLED;
if (!PrivilegeCheck(token, &priv, &ret))
return FALSE;
return ret;
}
/*
* Enable or disable particular privilege in specified access token.
*
* Note that it is not possible to disable privilege in access token with
* SE_PRIVILEGE_ENABLED_BY_DEFAULT attribute. This function does not check
* this case and incorrectly returns no error even when disabling failed.
* Rationale for this decision: Simplification of this function as WinAPI
* call AdjustTokenPrivileges() does not signal error in this case too.
*/
static BOOL
set_privilege(HANDLE token, LUID luid_privilege, BOOL enable)
{
TOKEN_PRIVILEGES token_privileges;
token_privileges.PrivilegeCount = 1;
token_privileges.Privileges[0].Luid = luid_privilege;
token_privileges.Privileges[0].Attributes = enable ? SE_PRIVILEGE_ENABLED : 0;
/*
* WinAPI function AdjustTokenPrivileges() success also when not all
* privileges were enabled. It is always required to check for failure
* via GetLastError() call. AdjustTokenPrivileges() always sets error
* also when it success, as opposite to other WinAPI functions.
*/
if (!AdjustTokenPrivileges(token, FALSE, &token_privileges, sizeof(token_privileges), NULL, NULL) ||
GetLastError() != ERROR_SUCCESS)
return FALSE;
return TRUE;
}
/*
* Change access token for the current thread to new specified access token.
* Previously active access token is stored in old_token variable and can be
* used for reverting to this access token. It is set to NULL if the current
* thread previously used primary process access token.
*/
static BOOL
change_token(HANDLE new_token, HANDLE *old_token)
{
HANDLE token;
if (!OpenThreadToken(GetCurrentThread(), TOKEN_IMPERSONATE, TRUE, &token))
{
if (GetLastError() != ERROR_NO_TOKEN)
return FALSE;
token = NULL;
}
if (!ImpersonateLoggedOnUser(new_token))
{
if (token)
CloseHandle(token);
return FALSE;
}
*old_token = token;
return TRUE;
}
/*
* Change access token for the current thread to the primary process access
* token. This function fails also when the current thread already uses primary
* process access token.
*/
static BOOL
change_token_to_primary(HANDLE *old_token)
{
HANDLE token;
if (!OpenThreadToken(GetCurrentThread(), TOKEN_IMPERSONATE, TRUE, &token))
return FALSE;
RevertToSelf();
*old_token = token;
return TRUE;
}
/*
* Revert to the specified access token for the current thread. When access
* token is specified as NULL then revert to the primary process access token.
* Use to revert after change_token() or change_token_to_primary() call.
*/
static VOID
revert_to_token(HANDLE token)
{
/*
* If SetThreadToken() call fails then there is no option to revert to
* the specified previous thread access token. So in this case revert to
* the primary process access token.
*/
if (!token || !SetThreadToken(NULL, token))
RevertToSelf();
if (token)
CloseHandle(token);
}
/*
* Enable particular privilege for the current thread. And set method how to
* revert this privilege (if to revert whole token or only privilege).
*/
static BOOL
enable_privilege(LUID luid_privilege, HANDLE *revert_token, BOOL *revert_only_privilege)
{
HANDLE thread_token;
HANDLE new_token;
if (OpenThreadToken(GetCurrentThread(), TOKEN_ADJUST_PRIVILEGES, TRUE, &thread_token))
{
if (set_privilege(thread_token, luid_privilege, TRUE))
{
/*
* Indicate that correct revert method is just to
* disable privilege in access token.
*/
if (revert_token && revert_only_privilege)
{
*revert_token = thread_token;
*revert_only_privilege = TRUE;
}
else
{
CloseHandle(thread_token);
}
return TRUE;
}
CloseHandle(thread_token);
/*
* If enabling privilege failed then try to enable it via
* primary process access token.
*/
}
/*
* If the current thread has already active thread access token then
* open it with just impersonate right as it would be used only for
* future revert.
*/
if (revert_token && revert_only_privilege)
{
if (!OpenThreadToken(GetCurrentThread(), TOKEN_IMPERSONATE, TRUE, &thread_token))
{
if (GetLastError() != ERROR_NO_TOKEN)
return FALSE;
thread_token = NULL;
}
/*
* If current thread has no access token (and uses primary
* process access token) or it does not have permission to
* adjust privileges or it does not have specified privilege
* then create a copy of the primary process access token,
* assign it for the current thread (= impersonate self)
* and then try adjusting privilege again.
*/
if (!ImpersonateSelf(SecurityImpersonation))
{
if (thread_token)
CloseHandle(thread_token);
return FALSE;
}
}
if (!OpenThreadToken(GetCurrentThread(), TOKEN_ADJUST_PRIVILEGES, TRUE, &new_token))
{
/* thread_token is set only when we were asked for revert method. */
if (revert_token && revert_only_privilege)
revert_to_token(thread_token);
return FALSE;
}
if (!set_privilege(new_token, luid_privilege, TRUE))
{
CloseHandle(new_token);
/* thread_token is set only when we were asked for revert method. */
if (revert_token && revert_only_privilege)
revert_to_token(thread_token);
return FALSE;
}
/*
* Indicate that correct revert method is to change to the previous
* access token. Either to the primary process access token or to the
* previous thread access token.
*/
if (revert_token && revert_only_privilege)
{
*revert_token = thread_token;
*revert_only_privilege = FALSE;
}
return TRUE;
}
/*
* Revert particular privilege for the current thread was previously enabled by
* enable_privilege() call. Either disable privilege in specified access token
* or revert to previous access token.
*/
static VOID
revert_privilege(LUID luid_privilege, HANDLE revert_token, BOOL revert_only_privilege)
{
if (revert_only_privilege)
{
set_privilege(revert_token, luid_privilege, FALSE);
CloseHandle(revert_token);
}
else
{
revert_to_token(revert_token);
}
}
/*
* Return owner of the access token used by the current thread. Buffer for
* returned owner needs to be released by LocalFree() call.
*/
static TOKEN_OWNER *
get_current_token_owner(VOID)
{
HANDLE token;
DWORD length;
TOKEN_OWNER *owner;
/*
* If the current thread does not have active access token then thread
* uses primary process access token for all permission checks.
*/
if (!OpenThreadToken(GetCurrentThread(), TOKEN_QUERY, TRUE, &token) &&
(GetLastError() != ERROR_NO_TOKEN ||
!OpenProcessToken(GetCurrentProcess(), TOKEN_QUERY, &token)))
return NULL;
if (!GetTokenInformation(token, TokenOwner, NULL, 0, &length) &&
GetLastError() != ERROR_INSUFFICIENT_BUFFER)
{
CloseHandle(token);
return NULL;
}
retry:
owner = (TOKEN_OWNER *)LocalAlloc(LPTR, length);
if (!owner)
{
CloseHandle(token);
return NULL;
}
if (!GetTokenInformation(token, TokenOwner, owner, length, &length))
{
/*
* Length of token owner (SID) buffer between two get calls may
* changes (e.g. by another thread of process), so retry.
*/
if (GetLastError() == ERROR_INSUFFICIENT_BUFFER)
{
LocalFree(owner);
goto retry;
}
LocalFree(owner);
CloseHandle(token);
return NULL;
}
CloseHandle(token);
return owner;
}
/*
* Grant particular permissions in the primary access token of the specified
* process for the owner of current thread token and set old DACL of the
* process access token for reverting permissions. Security descriptor is
* just memory buffer for old DACL.
*/
static BOOL
grant_process_token_dacl_permissions(HANDLE process, DWORD permissions, HANDLE *token, PACL *old_dacl, PSECURITY_DESCRIPTOR *security_descriptor)
{
GetSecurityInfoProt MyGetSecurityInfo;
SetSecurityInfoProt MySetSecurityInfo;
SetEntriesInAclProt MySetEntriesInAcl;
EXPLICIT_ACCESS explicit_access;
TOKEN_OWNER *owner;
HMODULE advapi32;
PACL new_dacl;
/*
* This source file already uses advapi32.dll library, so it is
* linked to executable and automatically loaded when starting
* current running process.
*/
advapi32 = GetModuleHandle(TEXT("advapi32.dll"));
if (!advapi32)
return FALSE;
/*
* It does not matter if SetEntriesInAclA() or SetEntriesInAclW() is
* called as no string is passed to SetEntriesInAcl function.
*/
MyGetSecurityInfo = (GetSecurityInfoProt)(LPVOID)GetProcAddress(advapi32, "GetSecurityInfo");
MySetSecurityInfo = (SetSecurityInfoProt)(LPVOID)GetProcAddress(advapi32, "SetSecurityInfo");
MySetEntriesInAcl = (SetEntriesInAclProt)(LPVOID)GetProcAddress(advapi32, "SetEntriesInAclA");
if (!MyGetSecurityInfo || !MySetSecurityInfo || !MySetEntriesInAcl)
return FALSE;
owner = get_current_token_owner();
if (!owner)
return FALSE;
/*
* READ_CONTROL is required for GetSecurityInfo(DACL_SECURITY_INFORMATION)
* and WRITE_DAC is required for SetSecurityInfo(DACL_SECURITY_INFORMATION).
*/
if (!OpenProcessToken(process, READ_CONTROL | WRITE_DAC, token))
{
LocalFree(owner);
return FALSE;
}
if (MyGetSecurityInfo(*token, SE_KERNEL_OBJECT, DACL_SECURITY_INFORMATION, NULL, NULL, old_dacl, NULL, security_descriptor) != ERROR_SUCCESS)
{
LocalFree(owner);
CloseHandle(*token);
return FALSE;
}
/*
* Set new explicit access for the owner of the current thread access
* token with non-inherited granting access to specified permissions.
*/
explicit_access.grfAccessPermissions = permissions;
explicit_access.grfAccessMode = GRANT_ACCESS;
explicit_access.grfInheritance = NO_PROPAGATE_INHERIT_ACE;
explicit_access.Trustee.pMultipleTrustee = NULL;
explicit_access.Trustee.MultipleTrusteeOperation = NO_MULTIPLE_TRUSTEE;
explicit_access.Trustee.TrusteeForm = TRUSTEE_IS_SID;
explicit_access.Trustee.TrusteeType = TRUSTEE_IS_USER;
/*
* Unfortunately i586-mingw32msvc toolchain does not have pSid pointer
* member in Trustee union. So assign owner SID to ptstrName pointer
* member which aliases with pSid pointer member in the same union.
*/
explicit_access.Trustee.ptstrName = (PVOID)owner->Owner;
if (MySetEntriesInAcl(1, &explicit_access, *old_dacl, &new_dacl) != ERROR_SUCCESS)
{
LocalFree(*security_descriptor);
LocalFree(owner);
CloseHandle(*token);
return FALSE;
}
if (MySetSecurityInfo(*token, SE_KERNEL_OBJECT, DACL_SECURITY_INFORMATION, NULL, NULL, new_dacl, NULL) != ERROR_SUCCESS)
{
LocalFree(*security_descriptor);
LocalFree(owner);
CloseHandle(*token);
return FALSE;
}
LocalFree(owner);
return TRUE;
}
/*
* Revert particular granted permissions in specified access token done by
* grant_process_token_dacl_permissions() call.
*/
static VOID
revert_token_dacl_permissions(HANDLE token, PACL old_dacl, PSECURITY_DESCRIPTOR security_descriptor)
{
SetSecurityInfoProt MySetSecurityInfo;
HMODULE advapi32;
/*
* This source file already uses advapi32.dll library, so it is
* linked to executable and automatically loaded when starting
* current running process.
*/
advapi32 = GetModuleHandle(TEXT("advapi32.dll"));
if (advapi32)
{
MySetSecurityInfo = (SetSecurityInfoProt)(LPVOID)GetProcAddress(advapi32, "SetSecurityInfo");
MySetSecurityInfo(token, SE_KERNEL_OBJECT, DACL_SECURITY_INFORMATION, NULL, NULL, old_dacl, NULL);
}
LocalFree(security_descriptor);
CloseHandle(token);
}
/*
* Change error mode of the current thread. If it is not possible then change
* error mode of the whole process. Always returns previous error mode.
*/
static UINT
change_error_mode(UINT new_mode)
{
SetThreadErrorModeProt MySetThreadErrorMode = NULL;
HMODULE kernel32;
DWORD old_mode;
/*
* Function SetThreadErrorMode() was introduced in Windows 7, so use
* GetProcAddress() for compatibility with older systems.
*/
kernel32 = GetModuleHandle(TEXT("kernel32.dll"));
if (kernel32)
MySetThreadErrorMode = (SetThreadErrorModeProt)(LPVOID)GetProcAddress(kernel32, "SetThreadErrorMode");
if (MySetThreadErrorMode &&
MySetThreadErrorMode(new_mode, &old_mode))
return old_mode;
/*
* Fallback to function SetErrorMode() which modifies error mode of the
* whole process and returns old mode.
*/
return SetErrorMode(new_mode);
}
/*
* Open process handle specified by the process id with the query right and
* optionally also with vm read right.
*/
static HANDLE
open_process_for_query(DWORD pid, BOOL with_vm_read)
{
BOOL revert_only_privilege;
LUID luid_debug_privilege;
OSVERSIONINFO version;
DWORD process_right;
HANDLE revert_token;
HANDLE process;
/*
* Some processes on Windows Vista and higher systems can be opened only
* with PROCESS_QUERY_LIMITED_INFORMATION right. This right is enough
* for accessing primary process token. But this right is not supported
* on older pre-Vista systems. When the current thread on these older
* systems does not have Debug privilege then OpenProcess() fails with
* ERROR_ACCESS_DENIED. If the current thread has Debug privilege then
* OpenProcess() success and returns handle to requested process.
* Problem is that this handle does not have PROCESS_QUERY_INFORMATION
* right and so cannot be used for accessing primary process token
* on those older systems. Moreover it has zero rights and therefore
* such handle is fully useless. So never try to use open process with
* PROCESS_QUERY_LIMITED_INFORMATION right on older systems than
* Windows Vista (NT 6.0).
*/
version.dwOSVersionInfoSize = sizeof(version);
if (GetVersionEx(&version) &&
version.dwPlatformId == VER_PLATFORM_WIN32_NT &&
version.dwMajorVersion >= 6)
process_right = PROCESS_QUERY_LIMITED_INFORMATION;
else
process_right = PROCESS_QUERY_INFORMATION;
if (with_vm_read)
process_right |= PROCESS_VM_READ;
process = OpenProcess(process_right, FALSE, pid);
if (process)
return process;
/*
* It is possible to open only processes to which owner of the current
* thread access token has permissions. For opening other processing it
* is required to have Debug privilege enabled. By default local
* administrators have this privilege, but it is disabled. So try to
* enable it and then try to open process again.
*/
if (!LookupPrivilegeValue(NULL, SE_DEBUG_NAME, &luid_debug_privilege))
return NULL;
if (!enable_privilege(luid_debug_privilege, &revert_token, &revert_only_privilege))
return NULL;
process = OpenProcess(process_right, FALSE, pid);
revert_privilege(luid_debug_privilege, revert_token, revert_only_privilege);
return process;
}
/*
* Check if process image path name (wide string) matches exe file name
* (7-bit ASCII string). Do case-insensitive string comparison. Process
* image path name can be in any namespace format (DOS, Win32, UNC, ...).
*/
static BOOL
check_process_name(LPCWSTR path, DWORD path_length, LPCSTR exe_file)
{
DWORD exe_file_length;
WCHAR c1;
UCHAR c2;
DWORD i;
exe_file_length = 0;
while (exe_file[exe_file_length] != '\0')
exe_file_length++;
/* Path must have backslash before exe file name. */
if (exe_file_length >= path_length ||
path[path_length-exe_file_length-1] != L'\\')
return FALSE;
for (i = 0; i < exe_file_length; i++)
{
c1 = path[path_length-exe_file_length+i];
c2 = exe_file[i];
/*
* Input string for comparison is 7-bit ASCII and file name part
* of path must not contain backslash as it is path separator.
*/
if (c1 >= 0x80 || c2 >= 0x80 || c1 == L'\\')
return FALSE;
if (c1 >= L'a' && c1 <= L'z')
c1 -= L'a' - L'A';
if (c2 >= 'a' && c2 <= 'z')
c2 -= 'a' - 'A';
if (c1 != c2)
return FALSE;
}
return TRUE;
}
/* Open process handle with the query right specified by process exe file. */
static HANDLE
find_and_open_process_for_query(LPCSTR exe_file)
{
GetProcessImageFileNameWProt MyGetProcessImageFileNameW;
GetModuleFileNameExWProt MyGetModuleFileNameExW;
EnumProcessesProt MyEnumProcesses;
HMODULE kernel32, psapi;
UINT prev_error_mode;
DWORD partial_retry;
BOOL found_process;
DWORD size, length;
DWORD *processes;
HANDLE process;
LPWSTR path;
DWORD error;
DWORD count;
DWORD i;
psapi = NULL;
kernel32 = GetModuleHandle(TEXT("kernel32.dll"));
if (!kernel32)
return NULL;
/*
* On Windows 7 and higher systems these functions are available in
* kernel32.dll library with K32 prefix.
*/
MyGetModuleFileNameExW = NULL;
MyGetProcessImageFileNameW = (GetProcessImageFileNameWProt)(LPVOID)GetProcAddress(kernel32, "K32GetProcessImageFileNameW");
MyEnumProcesses = (EnumProcessesProt)(LPVOID)GetProcAddress(kernel32, "K32EnumProcesses");
if (!MyGetProcessImageFileNameW || !MyEnumProcesses)
{
/*
* On older NT-based systems these functions are available in
* psapi.dll library without K32 prefix.
*/
prev_error_mode = change_error_mode(SEM_FAILCRITICALERRORS);
psapi = LoadLibrary(TEXT("psapi.dll"));
change_error_mode(prev_error_mode);
if (!psapi)
return NULL;
/*
* Function GetProcessImageFileNameW() is available in
* Windows XP and higher systems. On older versions is
* available function GetModuleFileNameExW().
*/
MyGetProcessImageFileNameW = (GetProcessImageFileNameWProt)(LPVOID)GetProcAddress(psapi, "GetProcessImageFileNameW");
MyGetModuleFileNameExW = (GetModuleFileNameExWProt)(LPVOID)GetProcAddress(psapi, "GetModuleFileNameExW");
MyEnumProcesses = (EnumProcessesProt)(LPVOID)GetProcAddress(psapi, "EnumProcesses");
if ((!MyGetProcessImageFileNameW && !MyGetModuleFileNameExW) || !MyEnumProcesses)
{
FreeLibrary(psapi);
return NULL;
}
}
/* Make initial buffer size for 1024 processes. */
size = 1024 * sizeof(*processes);
retry:
processes = (DWORD *)LocalAlloc(LPTR, size);
if (!processes)
{
if (psapi)
FreeLibrary(psapi);
return NULL;
}
if (!MyEnumProcesses(processes, size, &length))
{
LocalFree(processes);
if (psapi)
FreeLibrary(psapi);
return NULL;
}
else if (size == length)
{
/*
* There is no indication given when the buffer is too small to
* store all process identifiers. Therefore if returned length
* is same as buffer size there can be more processes. Call
* again with larger buffer.
*/
LocalFree(processes);
size *= 2;
goto retry;
}
process = NULL;
count = length / sizeof(*processes);
for (i = 0; i < count; i++)
{
/* Skip System Idle Process. */
if (processes[i] == 0)
continue;
/*
* Function GetModuleFileNameExW() requires additional
* PROCESS_VM_READ right as opposite to function
* GetProcessImageFileNameW() which does not need it.
*/
process = open_process_for_query(processes[i], MyGetProcessImageFileNameW ? FALSE : TRUE);
if (!process)
continue;
/*
* Set initial buffer size to 256 (wide) characters.
* Final path length on the modern NT-based systems can be also larger.
*/
size = 256;
found_process = FALSE;
partial_retry = 0;
retry_path:
path = (LPWSTR)LocalAlloc(LPTR, size * sizeof(*path));
if (!path)
goto end_path;
if (MyGetProcessImageFileNameW)
length = MyGetProcessImageFileNameW(process, path, size);
else
length = MyGetModuleFileNameExW(process, NULL, path, size);
error = GetLastError();
/*
* GetModuleFileNameEx() returns zero and signal error ERROR_PARTIAL_COPY
* when remote process is in the middle of updating its module table.
* Sleep 10 ms and try again, max 10 attempts.
*/
if (!MyGetProcessImageFileNameW)
{
if (length == 0 && error == ERROR_PARTIAL_COPY && partial_retry++ < 10)
{
Sleep(10);
goto retry_path;
}
partial_retry = 0;
}
/*
* When buffer is too small then function GetModuleFileNameEx() returns
* its size argument on older systems (Windows XP) or its size minus
* argument one on new systems (Windows 10) without signalling any error.
* Function GetProcessImageFileNameW() on the other hand returns zero
* value and signals error ERROR_INSUFFICIENT_BUFFER. So in all these
* cases call function again with larger buffer.
*/
if (MyGetProcessImageFileNameW && length == 0 && error != ERROR_INSUFFICIENT_BUFFER)
goto end_path;
if ((MyGetProcessImageFileNameW && length == 0) ||
(!MyGetProcessImageFileNameW && (length == size || length == size-1)))
{
LocalFree(path);
size *= 2;
goto retry_path;
}
if (length && check_process_name(path, length, exe_file))
found_process = TRUE;
end_path:
if (path)
{
LocalFree(path);
path = NULL;
}
if (found_process)
break;
CloseHandle(process);
process = NULL;
}
LocalFree(processes);
if (psapi)
FreeLibrary(psapi);
return process;
}
/*
* Try to open primary access token of the particular process with specified
* rights. Before opening access token try to adjust DACL permissions of the
* primary process access token, so following open does not fail on error
* related to no open permissions. Revert DACL permissions after open attempt.
* As following steps are not atomic, try to execute them more times in case
* of possible race conditions caused by other threads or processes.
*/
static HANDLE
try_grant_permissions_and_open_process_token(HANDLE process, DWORD rights)
{
PSECURITY_DESCRIPTOR security_descriptor;
HANDLE grant_token;
PACL old_dacl;
HANDLE token;
DWORD retry;
DWORD error;
/*
* This code is not atomic. Between grant and open calls can other
* thread or process change or revert permissions. So try to execute
* it more times.
*/
for (retry = 0; retry < 10; retry++)
{
if (!grant_process_token_dacl_permissions(process, rights, &grant_token, &old_dacl, &security_descriptor))
return NULL;
if (!OpenProcessToken(process, rights, &token))
{
token = NULL;
error = GetLastError();
}
revert_token_dacl_permissions(grant_token, old_dacl, security_descriptor);
if (token)
return token;
else if (error != ERROR_ACCESS_DENIED)
return NULL;
}
return NULL;
}
/*
* Open primary access token of particular process handle with specified rights.
* If permissions for specified rights are missing then try to grant them.
*/
static HANDLE
open_process_token_with_rights(HANDLE process, DWORD rights)
{
HANDLE old_token;
HANDLE token;
/* First try to open primary access token of process handle directly. */
if (OpenProcessToken(process, rights, &token))
return token;
/*
* If opening failed then it means that owner of the current thread
* access token does not have permission for it. Try it again with
* primary process access token.
*/
if (change_token_to_primary(&old_token))
{
if (!OpenProcessToken(process, rights, &token))
token = NULL;
revert_to_token(old_token);
if (token)
return token;
}
/*
* If opening is still failing then try to grant specified permissions
* for the current thread and try to open it again.
*/
token = try_grant_permissions_and_open_process_token(process, rights);
if (token)
return token;
/*
* And if it is still failing then try it again with granting
* permissions for the primary process token of the current process.
*/
if (change_token_to_primary(&old_token))
{
token = try_grant_permissions_and_open_process_token(process, rights);
revert_to_token(old_token);
if (token)
return token;
}
/*
* TODO: Sorry, no other option for now...
* It could be possible to use Take Ownership Name privilege to
* temporary change token owner of specified process to the owner of
* the current thread token, grant permissions for current thread in
* that process token, change ownership back to original one, open
* that process token and revert granted permissions. But this is
* not implemented yet.
*/
return NULL;
}
/*
* Set x86 I/O Privilege Level to 3 for the whole current NT process. Do it via
* NtSetInformationProcess() call with ProcessUserModeIOPL information class,
* which is supported by 32-bit Windows NT kernel versions and requires Tcb
* privilege.
*/
static BOOL
SetProcessUserModeIOPL(VOID)
{
NtSetInformationProcessProt MyNtSetInformationProcess;
LUID luid_tcb_privilege;
LUID luid_impersonate_privilege;
HANDLE revert_token_tcb_privilege;
BOOL revert_only_tcb_privilege;
HANDLE revert_token_impersonate_privilege;
BOOL revert_only_impersonate_privilege;
BOOL impersonate_privilege_enabled;
BOOL revert_to_old_token;
HANDLE old_token;
HANDLE lsass_process;
HANDLE lsass_token;
UINT prev_error_mode;
NTSTATUS nt_status;
HMODULE ntdll;
BOOL ret;
impersonate_privilege_enabled = FALSE;
revert_to_old_token = FALSE;
lsass_token = NULL;
old_token = NULL;
/* Fast path when ProcessUserModeIOPL was already called. */
if (read_iopl() == 3)
return TRUE;
/*
* Load ntdll.dll library with disabled critical-error-handler message box.
* It means that NT kernel does not show unwanted GUI message box to user
* when LoadLibrary() function fails.
*/
prev_error_mode = change_error_mode(SEM_FAILCRITICALERRORS);
ntdll = LoadLibrary(TEXT("ntdll.dll"));
change_error_mode(prev_error_mode);
if (!ntdll)
goto err_not_implemented;
/* Retrieve pointer to NtSetInformationProcess() function. */
MyNtSetInformationProcess = (NtSetInformationProcessProt)(LPVOID)GetProcAddress(ntdll, "NtSetInformationProcess");
if (!MyNtSetInformationProcess)
goto err_not_implemented;
/*
* ProcessUserModeIOPL is syscall for NT kernel to change x86 IOPL
* of the current running process to 3.
*
* Process handle argument for ProcessUserModeIOPL is ignored and
* IOPL is always changed for the current running process. So pass
* GetCurrentProcess() handle for documentation purpose. Process
* information buffer and length are unused for ProcessUserModeIOPL.
*
* ProcessUserModeIOPL may success (return value >= 0) or may fail
* because it is not implemented or because of missing privilege.
* Other errors are not defined, so handle them as unknown.
*/
nt_status = MyNtSetInformationProcess(GetCurrentProcess(), ProcessUserModeIOPL, NULL, 0);
if (nt_status >= 0)
goto verify;
else if (nt_status == STATUS_NOT_IMPLEMENTED)
goto err_not_implemented;
else if (nt_status != STATUS_PRIVILEGE_NOT_HELD)
goto err_unknown;
/*
* If ProcessUserModeIOPL call failed with STATUS_PRIVILEGE_NOT_HELD
* error then it means that the current thread token does not have
* Tcb privilege enabled. Try to enable it.
*/
if (!LookupPrivilegeValue(NULL, SE_TCB_NAME, &luid_tcb_privilege))
goto err_not_implemented;
/*
* If the current thread has already Tcb privilege enabled then there
* is some additional unhanded restriction.
*/
if (have_privilege(luid_tcb_privilege))
goto err_privilege_not_held;
/* Try to enable Tcb privilege and try ProcessUserModeIOPL call again. */
if (enable_privilege(luid_tcb_privilege, &revert_token_tcb_privilege, &revert_only_tcb_privilege))
{
nt_status = MyNtSetInformationProcess(GetCurrentProcess(), ProcessUserModeIOPL, NULL, 0);
revert_privilege(luid_tcb_privilege, revert_token_tcb_privilege, revert_only_tcb_privilege);
if (nt_status >= 0)
goto verify;
else if (nt_status == STATUS_NOT_IMPLEMENTED)
goto err_not_implemented;
else if (nt_status == STATUS_PRIVILEGE_NOT_HELD)
goto err_privilege_not_held;
else
goto err_unknown;
}
/*
* If enabling of Tcb privilege failed then it means that current thread
* does not this privilege. But current process may have it. So try it
* again with primary process access token.
*/
/*
* If system supports Impersonate privilege (Windows 2000 SP4 or higher) then
* all future actions in this function require this Impersonate privilege.
* So try to enable it in case it is currently disabled.
*/
if (LookupPrivilegeValue(NULL, SE_IMPERSONATE_NAME, &luid_impersonate_privilege) &&
!have_privilege(luid_impersonate_privilege))
{
/*
* If current thread does not have Impersonate privilege enabled
* then first try to enable it just for the current thread. If
* it is not possible to enable it just for the current thread
* then try it to enable globally for whole process (which
* affects all process threads). Both actions will be reverted
* at the end of this function.
*/
if (enable_privilege(luid_impersonate_privilege, &revert_token_impersonate_privilege, &revert_only_impersonate_privilege))
{
impersonate_privilege_enabled = TRUE;
}
else if (enable_privilege(luid_impersonate_privilege, NULL, NULL))
{
impersonate_privilege_enabled = TRUE;
revert_token_impersonate_privilege = NULL;
revert_only_impersonate_privilege = TRUE;
}
else
{
goto err_privilege_not_held;
}
/*
* Now when Impersonate privilege is enabled, try to enable Tcb
* privilege again. Enabling other privileges for the current
* thread requires Impersonate privilege, so enabling Tcb again
* could now pass.
*/
if (enable_privilege(luid_tcb_privilege, &revert_token_tcb_privilege, &revert_only_tcb_privilege))
{
nt_status = MyNtSetInformationProcess(GetCurrentProcess(), ProcessUserModeIOPL, NULL, 0);
revert_privilege(luid_tcb_privilege, revert_token_tcb_privilege, revert_only_tcb_privilege);
if (nt_status >= 0)
goto verify;
else if (nt_status == STATUS_NOT_IMPLEMENTED)
goto err_not_implemented;
else if (nt_status == STATUS_PRIVILEGE_NOT_HELD)
goto err_privilege_not_held;
else
goto err_unknown;
}
}
/*
* If enabling Tcb privilege failed then it means that the current
* thread access token does not have this privilege or does not
* have permission to adjust privileges.
*
* Try to use more privileged token from Local Security Authority
* Subsystem Service process (lsass.exe) which has Tcb privilege.
* Retrieving this more privileged token is possible for local
* administrators (unless it was disabled by local administrators).
*/
lsass_process = find_and_open_process_for_query("lsass.exe");
if (!lsass_process)
goto err_privilege_not_held;
/*
* Open primary lsass.exe process access token with query and duplicate
* rights. Just these two rights are required for impersonating other
* primary process token (impersonate right is really not required!).
*/
lsass_token = open_process_token_with_rights(lsass_process, TOKEN_QUERY | TOKEN_DUPLICATE);
CloseHandle(lsass_process);
if (!lsass_token)
goto err_privilege_not_held;
/*
* After successful open of the primary lsass.exe process access token,
* assign its copy for the current thread.
*/
if (!change_token(lsass_token, &old_token))
goto err_privilege_not_held;
revert_to_old_token = TRUE;
nt_status = MyNtSetInformationProcess(GetCurrentProcess(), ProcessUserModeIOPL, NULL, 0);
if (nt_status == STATUS_PRIVILEGE_NOT_HELD)
{
/*
* Now current thread is not using primary process token anymore
* but is using custom access token. There is no need to revert
* enabled Tcb privilege as the whole custom access token would
* be reverted. So there is no need to setup revert method for
* enabling privilege.
*/
if (have_privilege(luid_tcb_privilege) ||
!enable_privilege(luid_tcb_privilege, NULL, NULL))
goto err_privilege_not_held;
nt_status = MyNtSetInformationProcess(GetCurrentProcess(), ProcessUserModeIOPL, NULL, 0);
}
if (nt_status >= 0)
goto verify;
else if (nt_status == STATUS_NOT_IMPLEMENTED)
goto err_not_implemented;
else if (nt_status == STATUS_PRIVILEGE_NOT_HELD)
goto err_privilege_not_held;
else
goto err_unknown;
verify:
/*
* Some Windows NT kernel versions (e.g. Windows 2003 x64) do not
* implement ProcessUserModeIOPL syscall at all but incorrectly
* returns success when it is called by user process. So always
* after this call verify that IOPL is set to 3.
*/
if (read_iopl() != 3)
goto err_not_implemented;
ret = TRUE;
goto ret;
err_not_implemented:
SetLastError(ERROR_INVALID_FUNCTION);
ret = FALSE;
goto ret;
err_privilege_not_held:
SetLastError(ERROR_PRIVILEGE_NOT_HELD);
ret = FALSE;
goto ret;
err_unknown:
SetLastError(ERROR_GEN_FAILURE);
ret = FALSE;
goto ret;
ret:
if (revert_to_old_token)
revert_to_token(old_token);
if (impersonate_privilege_enabled)
revert_privilege(luid_impersonate_privilege, revert_token_impersonate_privilege, revert_only_impersonate_privilege);
if (lsass_token)
CloseHandle(lsass_token);
if (ntdll)
FreeLibrary(ntdll);
return ret;
}
static int
intel_setup_io(struct pci_access *a)
{
#ifndef _WIN64
/* 16/32-bit non-NT systems allow applications to access PCI I/O ports without any special setup. */
OSVERSIONINFOA version;
version.dwOSVersionInfoSize = sizeof(version);
if (GetVersionExA(&version) && version.dwPlatformId < VER_PLATFORM_WIN32_NT)
{
a->debug("Detected 16/32-bit non-NT system, skipping NT setup...");
return 1;
}
#endif
/* On NT-based systems issue ProcessUserModeIOPL syscall which changes IOPL to 3. */
if (!SetProcessUserModeIOPL())
{
DWORD error = GetLastError();
a->debug("NT ProcessUserModeIOPL call failed: %s.", error == ERROR_INVALID_FUNCTION ? "Not Implemented" : error == ERROR_PRIVILEGE_NOT_HELD ? "Access Denied" : "Operation Failed");
return 0;
}
a->debug("NT ProcessUserModeIOPL call succeeded...");
return 1;
}
static inline void
intel_cleanup_io(struct pci_access *a UNUSED)
{
/*
* 16/32-bit non-NT systems do not use any special setup and on NT-based
* systems ProcessUserModeIOPL permanently changes IOPL to 3 for the current
* NT process, no revert for current process is possible.
*/
}
static inline void intel_io_lock(void)
{
}
static inline void intel_io_unlock(void)
{
}
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