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gnupg/cipher/rndw32.c

964 lines
32 KiB
C

/* rndw32.c - W32 entropy gatherer
* Copyright (C) 1999, 2000 Free Software Foundation, Inc.
* Copyright Peter Gutmann, Matt Thomlinson and Blake Coverett 1996-1999
*
* This file is part of GnuPG.
*
* GnuPG is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* GnuPG is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
*
*************************************************************************
* The code here is based on code from Cryptlib 3.0 beta by Peter Gutmann.
* Source file misc/rndwin32.c "Win32 Randomness-Gathering Code" with this
* copyright notice:
*
* This module is part of the cryptlib continuously seeded pseudorandom
* number generator. For usage conditions, see lib_rand.c
*
* [Here is the notice from lib_rand.c, which is now called dev_sys.c]
*
* This module and the misc/rnd*.c modules represent the cryptlib
* continuously seeded pseudorandom number generator (CSPRNG) as described in
* my 1998 Usenix Security Symposium paper "The generation of random numbers
* for cryptographic purposes".
*
* The CSPRNG code is copyright Peter Gutmann (and various others) 1996,
* 1997, 1998, 1999, all rights reserved. Redistribution of the CSPRNG
* modules and use in source and binary forms, with or without modification,
* are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice
* and this permission notice in its entirety.
*
* 2. Redistributions in binary form must reproduce the copyright notice in
* the documentation and/or other materials provided with the distribution.
*
* 3. A copy of any bugfixes or enhancements made must be provided to the
* author, <pgut001@cs.auckland.ac.nz> to allow them to be added to the
* baseline version of the code.
*
* ALTERNATIVELY, the code may be distributed under the terms of the GNU
* General Public License, version 2 or any later version published by the
* Free Software Foundation, in which case the provisions of the GNU GPL are
* required INSTEAD OF the above restrictions.
*
* Although not required under the terms of the GPL, it would still be nice if
* you could make any changes available to the author to allow a consistent
* code base to be maintained
*************************************************************************
*/
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <assert.h>
#include <errno.h>
#include <string.h>
#include <windows.h>
#include "types.h"
#include "util.h"
#include "dynload.h"
/* We do not use the netropy DLL anymore because a standalone program is
* easier to maintain and */
/*#define USE_ENTROPY_DLL*/
#ifdef IS_MODULE
#define _(a) (a)
#else
#include "i18n.h"
#endif
static int debug_me;
#ifdef USE_ENTROPY_DLL
#define WIN32_SLOW_SEEDER 0
#define WIN32_FAST_SEEDER 1
#define PCP_SUCCESS 0
#define PCP_NULL_POINTER 1
#define PCP_SEEDER_FAILED 2
#define PCP_SEEDER_NO_MEM 3
#define PCP_SEEDER_TOO_SMALL 4
#define PCP_DLL_LOAD_FAILED 5
#define PCP_UNKNOWN_PLATFORM 6
#define PCP_ERROR_VERSION 7
#define PCP_DLL_FUNC 8
#define PCP_UNKNOWN_SEEDER_TYPE 9
/****************
* We sometimes get a SEEDER_TOO_SMALL error, in which case we increment
* the internal buffer by SEEDER_INC_CHUNK until we reach MAX_SEEDER_SIZE
* MAX_SEEDER_SIZE is used as an arbitrary limit to protect against
* bugs in Winseed.
*/
#define MAX_SEEDER_SIZE 500000
#define SEEDER_INC_CHUNK 50000
typedef void *WIN32_SEEDER;
static WIN32_SEEDER (WINAPI *create_instance)( byte type, unsigned int *reason);
static void (WINAPI *delete_instance)( WIN32_SEEDER that );
static unsigned int (WINAPI *get_internal_seed_size)( WIN32_SEEDER that );
static void (WINAPI *set_internal_seed_size)( WIN32_SEEDER that,
unsigned int new_size);
static unsigned int (WINAPI *get_expected_seed_size)( WIN32_SEEDER that);
static unsigned int (WINAPI *get_seed)( WIN32_SEEDER that, byte *buffer,
unsigned int *desired_length);
static WIN32_SEEDER slow_seeder, fast_seeder;
static byte *entropy_buffer;
static size_t entropy_buffer_size;
/****************
* Load and initialize the winseed DLL
* NOTE: winseed is not part of the GnuPG distribution. It should be available
* at the GNU crypto FTP server site.
* We do not load the DLL on demand to have a better control over the
* location of the library.
*/
static void
load_and_init_winseed( void )
{
HANDLE hInstance;
void *addr;
unsigned int reason = 0;
unsigned int n1, n2;
const char *dllname;
dllname = read_w32_registry_string( "HKEY_LOCAL_MACHINE",
"Software\\GNU\\GnuPG",
"EntropyDLL" );
if( !dllname )
dllname = "c:/gnupg/entropy.dll";
hInstance = LoadLibrary( dllname );
if( !hInstance )
goto failure;
if( !(addr = GetProcAddress( hInstance, "WS_create_instance" )) )
goto failure;
create_instance = addr;
if( !(addr = GetProcAddress( hInstance, "WS_delete_instance" )) )
goto failure;
delete_instance = addr;
if( !(addr = GetProcAddress( hInstance, "WS_get_internal_seed_size" )) )
goto failure;
get_internal_seed_size = addr;
if( !(addr = GetProcAddress( hInstance, "WS_set_internal_seed_size" )) )
goto failure;
set_internal_seed_size = addr;
if( !(addr = GetProcAddress( hInstance, "WS_get_expected_seed_size" )) )
goto failure;
get_expected_seed_size = addr;
if( !(addr = GetProcAddress( hInstance, "WS_get_seed" )) )
goto failure;
get_seed = addr;
/* we have all the functions - init the system */
slow_seeder = create_instance( WIN32_SLOW_SEEDER, &reason);
if( !slow_seeder ) {
g10_log_fatal("error creating winseed slow seeder: rc=%u\n", reason );
goto failure;
}
fast_seeder = create_instance( WIN32_FAST_SEEDER, &reason);
if( !fast_seeder ) {
g10_log_fatal("error creating winseed fast seeder: rc=%u\n", reason );
goto failure;
}
n1 = get_internal_seed_size( slow_seeder );
/*g10_log_info("slow buffer size=%u\n", n1);*/
n2 = get_internal_seed_size( fast_seeder );
/*g10_log_info("fast buffer size=%u\n", n2);*/
entropy_buffer_size = n1 > n2? n1: n2;
entropy_buffer = m_alloc( entropy_buffer_size );
/*g10_log_info("using a buffer of size=%u\n", entropy_buffer_size );*/
return;
failure:
g10_log_fatal("error loading winseed DLL `%s'\n", dllname );
}
/* Note: we always use the highest level.
* TO boost the performance we may want to add some
* additional code for level 1
*/
static int
gather_random( void (*add)(const void*, size_t, int), int requester,
size_t length, int level )
{
unsigned int result;
unsigned int nbytes;
if( !level )
return 0;
if( !slow_seeder )
load_and_init_winseed();
/* Our estimation on how much entropy we should use is very vague.
* Winseed delivers some amount of entropy on each slow poll and
* we add it to our random pool. Depending on the required quality
* level we adjust the requested length so that for higher quality
* we make sure to add more entropy to our pool. However, as we don't
* like to waste any entropy collected by winseed, we always add
* at least everything we got from winseed.
*/
if( level > 1 )
length *= 100;
else if( level > 0 )
length *= 10;
for(;;) {
nbytes = entropy_buffer_size;
result = get_seed( slow_seeder, entropy_buffer, &nbytes);
if( result == PCP_SEEDER_TOO_SMALL ) {
unsigned int n1 = get_internal_seed_size( slow_seeder );
if( n1 > MAX_SEEDER_SIZE ) {
g10_log_fatal("rndw32: internal seeder problem (size=%u)\n",
n1);
return -1; /* actually never reached */
}
n1 += SEEDER_INC_CHUNK;
set_internal_seed_size( slow_seeder, n1 );
if( n1 > entropy_buffer_size ) {
entropy_buffer_size = n1;
entropy_buffer = m_realloc( entropy_buffer,
entropy_buffer_size );
}
continue;
}
if( result ) {
g10_log_fatal("rndw32: get_seed(slow) failed: rc=%u\n", result);
return -1; /* actually never reached */
}
/*g10_log_info("rndw32: slow poll level %d, need %u, got %u\n",
level, (unsigned int)length, (unsigned int)nbytes );*/
(*add)( entropy_buffer, nbytes, requester );
if( length <= nbytes )
return 0; /* okay */
length -= nbytes;
}
}
static int
gather_random_fast( void (*add)(const void*, size_t, int), int requester )
{
unsigned int result;
unsigned int nbytes;
if( !fast_seeder )
load_and_init_winseed();
/* winseed delivers a constant ammount of entropy for a fast
* poll. We can simply use this and add it to the pool; no need
* a loop like it is used in the slow poll */
nbytes = entropy_buffer_size;
result = get_seed( fast_seeder, entropy_buffer, &nbytes);
if( result ) {
g10_log_fatal("rndw32: get_seed(fast) failed: rc=%u\n", result);
return -1; /* actually never reached */
}
/*g10_log_info("rndw32: fast poll got %u\n", (unsigned int)nbytes );*/
(*add)( entropy_buffer, nbytes, requester );
return 0;
}
#else /* !USE_ENTROPY_DLL */
/* This is the new code which does not require the entropy.dll */
/*
* Definitions which are missing from the current GNU Windows32Api
*/
#ifndef TH32CS_SNAPHEAPLIST
#define TH32CS_SNAPHEAPLIST 1
#define TH32CS_SNAPPROCESS 2
#define TH32CS_SNAPTHREAD 4
#define TH32CS_SNAPMODULE 8
#define TH32CS_SNAPALL (1|2|4|8)
#define TH32CS_INHERIT 0x80000000
#endif /*TH32CS_SNAPHEAPLIST*/
#ifndef IOCTL_DISK_PERFORMANCE
#define IOCTL_DISK_PERFORMANCE 0x00070020
#endif
#ifndef IOCTL_DISK_PERFORMANCE
#define VER_PLATFORM_WIN32_WINDOWSw 1
#endif
typedef struct {
DWORD dwSize;
DWORD th32ProcessID;
DWORD th32HeapID;
DWORD dwFlags;
} HEAPLIST32;
typedef struct {
DWORD dwSize;
HANDLE hHandle;
DWORD dwAddress;
DWORD dwBlockSize;
DWORD dwFlags;
DWORD dwLockCount;
DWORD dwResvd;
DWORD th32ProcessID;
DWORD th32HeapID;
} HEAPENTRY32;
typedef struct {
DWORD dwSize;
DWORD cntUsage;
DWORD th32ProcessID;
DWORD th32DefaultHeapID;
DWORD th32ModuleID;
DWORD cntThreads;
DWORD th32ParentProcessID;
LONG pcPriClassBase;
DWORD dwFlags;
char szExeFile[260];
} PROCESSENTRY32;
typedef struct {
DWORD dwSize;
DWORD cntUsage;
DWORD th32ThreadID;
DWORD th32OwnerProcessID;
LONG tpBasePri;
LONG tpDeltaPri;
DWORD dwFlags;
} THREADENTRY32;
typedef struct {
DWORD dwSize;
DWORD th32ModuleID;
DWORD th32ProcessID;
DWORD GlblcntUsage;
DWORD ProccntUsage;
BYTE *modBaseAddr;
DWORD modBaseSize;
HMODULE hModule;
char szModule[256];
char szExePath[260];
} MODULEENTRY32;
/* Type definitions for function pointers to call Toolhelp32 functions
* used with the windows95 gatherer */
typedef BOOL (WINAPI * MODULEWALK) (HANDLE hSnapshot, MODULEENTRY32 *lpme);
typedef BOOL (WINAPI * THREADWALK) (HANDLE hSnapshot, THREADENTRY32 *lpte);
typedef BOOL (WINAPI * PROCESSWALK) (HANDLE hSnapshot, PROCESSENTRY32 *lppe);
typedef BOOL (WINAPI * HEAPLISTWALK) (HANDLE hSnapshot, HEAPLIST32 *lphl);
typedef BOOL (WINAPI * HEAPFIRST) (HEAPENTRY32 *lphe, DWORD th32ProcessID,
DWORD th32HeapID);
typedef BOOL (WINAPI * HEAPNEXT) (HEAPENTRY32 *lphe);
typedef HANDLE (WINAPI * CREATESNAPSHOT) (DWORD dwFlags, DWORD th32ProcessID);
/* Type definitions for function pointers to call NetAPI32 functions */
typedef DWORD (WINAPI * NETSTATISTICSGET) (LPWSTR szServer, LPWSTR szService,
DWORD dwLevel, DWORD dwOptions,
LPBYTE * lpBuffer);
typedef DWORD (WINAPI * NETAPIBUFFERSIZE) (LPVOID lpBuffer, LPDWORD cbBuffer);
typedef DWORD (WINAPI * NETAPIBUFFERFREE) (LPVOID lpBuffer);
/* When we query the performance counters, we allocate an initial buffer and
* then reallocate it as required until RegQueryValueEx() stops returning
* ERROR_MORE_DATA. The following values define the initial buffer size and
* step size by which the buffer is increased
*/
#define PERFORMANCE_BUFFER_SIZE 65536 /* Start at 64K */
#define PERFORMANCE_BUFFER_STEP 16384 /* Step by 16K */
static void
slow_gatherer_windows95( void (*add)(const void*, size_t, int), int requester )
{
static CREATESNAPSHOT pCreateToolhelp32Snapshot = NULL;
static MODULEWALK pModule32First = NULL;
static MODULEWALK pModule32Next = NULL;
static PROCESSWALK pProcess32First = NULL;
static PROCESSWALK pProcess32Next = NULL;
static THREADWALK pThread32First = NULL;
static THREADWALK pThread32Next = NULL;
static HEAPLISTWALK pHeap32ListFirst = NULL;
static HEAPLISTWALK pHeap32ListNext = NULL;
static HEAPFIRST pHeap32First = NULL;
static HEAPNEXT pHeap32Next = NULL;
HANDLE hSnapshot;
/* initialize the Toolhelp32 function pointers */
if ( !pCreateToolhelp32Snapshot ) {
HANDLE hKernel;
if ( debug_me )
log_debug ("rndw32#slow_gatherer_95: init toolkit\n" );
/* Obtain the module handle of the kernel to retrieve the addresses
* of the Toolhelp32 functions */
if ( ( !(hKernel = GetModuleHandle ("KERNEL32.DLL"))) ) {
g10_log_fatal ( "rndw32: can't get module handle\n" );
}
/* Now get pointers to the functions */
pCreateToolhelp32Snapshot = (CREATESNAPSHOT) GetProcAddress (hKernel,
"CreateToolhelp32Snapshot");
pModule32First = (MODULEWALK) GetProcAddress (hKernel, "Module32First");
pModule32Next = (MODULEWALK) GetProcAddress (hKernel, "Module32Next");
pProcess32First = (PROCESSWALK) GetProcAddress (hKernel,
"Process32First");
pProcess32Next = (PROCESSWALK) GetProcAddress (hKernel,
"Process32Next");
pThread32First = (THREADWALK) GetProcAddress (hKernel, "Thread32First");
pThread32Next = (THREADWALK) GetProcAddress (hKernel, "Thread32Next");
pHeap32ListFirst = (HEAPLISTWALK) GetProcAddress (hKernel,
"Heap32ListFirst");
pHeap32ListNext = (HEAPLISTWALK) GetProcAddress (hKernel,
"Heap32ListNext");
pHeap32First = (HEAPFIRST) GetProcAddress (hKernel, "Heap32First");
pHeap32Next = (HEAPNEXT) GetProcAddress (hKernel, "Heap32Next");
if ( !pCreateToolhelp32Snapshot
|| !pModule32First || !pModule32Next
|| !pProcess32First || !pProcess32Next
|| !pThread32First || !pThread32Next
|| !pHeap32ListFirst || !pHeap32ListNext
|| !pHeap32First || !pHeap32Next ) {
g10_log_fatal ( "rndw32: failed to get a toolhep function\n" );
}
}
/* Take a snapshot of everything we can get to which is currently
* in the system */
if ( !(hSnapshot = pCreateToolhelp32Snapshot (TH32CS_SNAPALL, 0)) ) {
g10_log_fatal ( "rndw32: failed to take a toolhelp snapshot\n" );
}
/* Walk through the local heap */
{ HEAPLIST32 hl32;
hl32.dwSize = sizeof (HEAPLIST32);
if (pHeap32ListFirst (hSnapshot, &hl32)) {
if ( debug_me )
log_debug ("rndw32#slow_gatherer_95: walk heap\n" );
do {
HEAPENTRY32 he32;
/* First add the information from the basic Heaplist32 struct */
(*add) ( &hl32, sizeof (hl32), requester );
/* Now walk through the heap blocks getting information
* on each of them */
he32.dwSize = sizeof (HEAPENTRY32);
if (pHeap32First (&he32, hl32.th32ProcessID, hl32.th32HeapID)){
do {
(*add) ( &he32, sizeof (he32), requester );
} while (pHeap32Next (&he32));
}
} while (pHeap32ListNext (hSnapshot, &hl32));
}
}
/* Walk through all processes */
{ PROCESSENTRY32 pe32;
pe32.dwSize = sizeof (PROCESSENTRY32);
if (pProcess32First (hSnapshot, &pe32)) {
if ( debug_me )
log_debug ("rndw32#slow_gatherer_95: walk processes\n" );
do {
(*add) ( &pe32, sizeof (pe32), requester );
} while (pProcess32Next (hSnapshot, &pe32));
}
}
/* Walk through all threads */
{ THREADENTRY32 te32;
te32.dwSize = sizeof (THREADENTRY32);
if (pThread32First (hSnapshot, &te32)) {
if ( debug_me )
log_debug ("rndw32#slow_gatherer_95: walk threads\n" );
do {
(*add) ( &te32, sizeof (te32), requester );
} while (pThread32Next (hSnapshot, &te32));
}
}
/* Walk through all modules associated with the process */
{ MODULEENTRY32 me32;
me32.dwSize = sizeof (MODULEENTRY32);
if (pModule32First (hSnapshot, &me32)) {
if ( debug_me )
log_debug ("rndw32#slow_gatherer_95: walk modules\n" );
do {
(*add) ( &me32, sizeof (me32), requester );
} while (pModule32Next (hSnapshot, &me32));
}
}
CloseHandle (hSnapshot);
}
static void
slow_gatherer_windowsNT( void (*add)(const void*, size_t, int), int requester )
{
static int is_initialized = 0;
static NETSTATISTICSGET pNetStatisticsGet = NULL;
static NETAPIBUFFERSIZE pNetApiBufferSize = NULL;
static NETAPIBUFFERFREE pNetApiBufferFree = NULL;
static int is_workstation = 1;
static int cbPerfData = PERFORMANCE_BUFFER_SIZE;
PERF_DATA_BLOCK *pPerfData;
HANDLE hDevice, hNetAPI32 = NULL;
DWORD dwSize, status;
int nDrive;
if ( !is_initialized ) {
HKEY hKey;
if ( debug_me )
log_debug ("rndw32#slow_gatherer_nt: init toolkit\n" );
/* Find out whether this is an NT server or workstation if necessary */
if (RegOpenKeyEx (HKEY_LOCAL_MACHINE,
"SYSTEM\\CurrentControlSet\\Control\\ProductOptions",
0, KEY_READ, &hKey) == ERROR_SUCCESS) {
BYTE szValue[32];
dwSize = sizeof (szValue);
if ( debug_me )
log_debug ("rndw32#slow_gatherer_nt: check product options\n" );
status = RegQueryValueEx (hKey, "ProductType", 0, NULL,
szValue, &dwSize);
if (status == ERROR_SUCCESS && stricmp (szValue, "WinNT")) {
/* Note: There are (at least) three cases for ProductType:
* WinNT = NT Workstation, ServerNT = NT Server, LanmanNT =
* NT Server acting as a Domain Controller */
is_workstation = 0;
if ( debug_me )
log_debug ("rndw32: this is a NT server\n");
}
RegCloseKey (hKey);
}
/* Initialize the NetAPI32 function pointers if necessary */
if ( (hNetAPI32 = LoadLibrary ("NETAPI32.DLL")) ) {
if ( debug_me )
log_debug ("rndw32#slow_gatherer_nt: netapi32 loaded\n" );
pNetStatisticsGet = (NETSTATISTICSGET) GetProcAddress (hNetAPI32,
"NetStatisticsGet");
pNetApiBufferSize = (NETAPIBUFFERSIZE) GetProcAddress (hNetAPI32,
"NetApiBufferSize");
pNetApiBufferFree = (NETAPIBUFFERFREE) GetProcAddress (hNetAPI32,
"NetApiBufferFree");
if ( !pNetStatisticsGet
|| !pNetApiBufferSize || !pNetApiBufferFree ) {
FreeLibrary (hNetAPI32);
hNetAPI32 = NULL;
g10_log_debug ("rndw32: No NETAPI found\n" );
}
}
is_initialized = 1;
}
/* Get network statistics. Note: Both NT Workstation and NT Server by
* default will be running both the workstation and server services. The
* heuristic below is probably useful though on the assumption that the
* majority of the network traffic will be via the appropriate service.
* In any case the network statistics return almost no randomness */
{ LPBYTE lpBuffer;
if (hNetAPI32 && !pNetStatisticsGet (NULL,
is_workstation ? L"LanmanWorkstation" :
L"LanmanServer", 0, 0, &lpBuffer) ) {
if ( debug_me )
log_debug ("rndw32#slow_gatherer_nt: get netstats\n" );
pNetApiBufferSize (lpBuffer, &dwSize);
(*add) ( lpBuffer, dwSize,requester );
pNetApiBufferFree (lpBuffer);
}
}
/* Get disk I/O statistics for all the hard drives */
for (nDrive = 0;; nDrive++) {
DISK_PERFORMANCE diskPerformance;
char szDevice[50];
/* Check whether we can access this device */
sprintf (szDevice, "\\\\.\\PhysicalDrive%d", nDrive);
hDevice = CreateFile (szDevice, 0, FILE_SHARE_READ | FILE_SHARE_WRITE,
NULL, OPEN_EXISTING, 0, NULL);
if (hDevice == INVALID_HANDLE_VALUE)
break;
/* Note: This only works if you have turned on the disk performance
* counters with 'diskperf -y'. These counters are off by default */
if (DeviceIoControl (hDevice, IOCTL_DISK_PERFORMANCE, NULL, 0,
&diskPerformance, sizeof (DISK_PERFORMANCE),
&dwSize, NULL))
{
if ( debug_me )
log_debug ("rndw32#slow_gatherer_nt: iostats drive %d\n",
nDrive );
(*add) ( &diskPerformance, dwSize, requester );
}
else {
log_info ("NOTE: you should run 'diskperf -y' "
"to enable the disk statistics\n");
}
CloseHandle (hDevice);
}
#if 0 /* we don't need this in GnuPG */
/* Wait for any async keyset driver binding to complete. You may be
* wondering what this call is doing here... the reason it's necessary is
* because RegQueryValueEx() will hang indefinitely if the async driver
* bind is in progress. The problem occurs in the dynamic loading and
* linking of driver DLL's, which work as follows:
*
* hDriver = LoadLibrary( DRIVERNAME );
* pFunction1 = ( TYPE_FUNC1 ) GetProcAddress( hDriver, NAME_FUNC1 );
* pFunction2 = ( TYPE_FUNC1 ) GetProcAddress( hDriver, NAME_FUNC2 );
*
* If RegQueryValueEx() is called while the GetProcAddress()'s are in
* progress, it will hang indefinitely. This is probably due to some
* synchronisation problem in the NT kernel where the GetProcAddress()
* calls affect something like a module reference count or function
* reference count while RegQueryValueEx() is trying to take a snapshot
* of the statistics, which include the reference counts. Because of
* this, we have to wait until any async driver bind has completed
* before we can call RegQueryValueEx() */
waitSemaphore (SEMAPHORE_DRIVERBIND);
#endif
/* Get information from the system performance counters. This can take
* a few seconds to do. In some environments the call to
* RegQueryValueEx() can produce an access violation at some random time
* in the future, adding a short delay after the following code block
* makes the problem go away. This problem is extremely difficult to
* reproduce, I haven't been able to get it to occur despite running it
* on a number of machines. The best explanation for the problem is that
* on the machine where it did occur, it was caused by an external driver
* or other program which adds its own values under the
* HKEY_PERFORMANCE_DATA key. The NT kernel calls the required external
* modules to map in the data, if there's a synchronisation problem the
* external module would write its data at an inappropriate moment,
* causing the access violation. A low-level memory checker indicated
* that ExpandEnvironmentStrings() in KERNEL32.DLL, called an
* interminable number of calls down inside RegQueryValueEx(), was
* overwriting memory (it wrote twice the allocated size of a buffer to a
* buffer allocated by the NT kernel). This may be what's causing the
* problem, but since it's in the kernel there isn't much which can be
* done.
*
* In addition to these problems the code in RegQueryValueEx() which
* estimates the amount of memory required to return the performance
* counter information isn't very accurate, since it always returns a
* worst-case estimate which is usually nowhere near the actual amount
* required. For example it may report that 128K of memory is required,
* but only return 64K of data */
{ pPerfData = m_alloc (cbPerfData);
for (;;) {
dwSize = cbPerfData;
if ( debug_me )
log_debug ("rndw32#slow_gatherer_nt: get perf data\n" );
status = RegQueryValueEx (HKEY_PERFORMANCE_DATA, "Global", NULL,
NULL, (LPBYTE) pPerfData, &dwSize);
if (status == ERROR_SUCCESS) {
if (!memcmp (pPerfData->Signature, L"PERF", 8)) {
(*add) ( pPerfData, dwSize, requester );
}
else
g10_log_debug ( "rndw32: no PERF signature\n");
break;
}
else if (status == ERROR_MORE_DATA) {
cbPerfData += PERFORMANCE_BUFFER_STEP;
pPerfData = m_realloc (pPerfData, cbPerfData);
}
else {
g10_log_debug ( "rndw32: get performance data problem\n");
break;
}
}
m_free (pPerfData);
}
/* Although this isn't documented in the Win32 API docs, it's necessary
to explicitly close the HKEY_PERFORMANCE_DATA key after use (it's
implicitly opened on the first call to RegQueryValueEx()). If this
isn't done then any system components which provide performance data
can't be removed or changed while the handle remains active */
RegCloseKey (HKEY_PERFORMANCE_DATA);
}
static int
gather_random( void (*add)(const void*, size_t, int), int requester,
size_t length, int level )
{
static int is_initialized;
static int is_windows95;
if( !level )
return 0;
/* We don't differentiate between level 1 and 2 here because
* there is no nternal entropy pool as a scary resource. It may
* all work slower, but because our entropy source will never
* block but deliver some not easy to measure entropy, we assume level 2
*/
if ( !is_initialized ) {
OSVERSIONINFO osvi = { sizeof( osvi ) };
DWORD platform;
GetVersionEx( &osvi );
platform = osvi.dwPlatformId;
is_windows95 = platform == VER_PLATFORM_WIN32_WINDOWS;
if ( platform == VER_PLATFORM_WIN32s ) {
g10_log_fatal("can't run on a W32s platform\n" );
}
is_initialized = 1;
if ( debug_me )
log_debug ("rndw32#gather_random: platform=%d\n", (int)platform );
}
if ( debug_me )
log_debug ("rndw32#gather_random: req=%d len=%u lvl=%d\n",
requester, (unsigned int)length, level );
if (is_windows95 ) {
slow_gatherer_windows95( add, requester );
}
else {
slow_gatherer_windowsNT( add, requester );
}
return 0;
}
static int
gather_random_fast( void (*add)(const void*, size_t, int), int requester )
{
static int addedFixedItems = 0;
if ( debug_me )
log_debug ("rndw32#gather_random_fast: req=%d\n", requester );
/* Get various basic pieces of system information: Handle of active
* window, handle of window with mouse capture, handle of clipboard owner
* handle of start of clpboard viewer list, pseudohandle of current
* process, current process ID, pseudohandle of current thread, current
* thread ID, handle of desktop window, handle of window with keyboard
* focus, whether system queue has any events, cursor position for last
* message, 1 ms time for last message, handle of window with clipboard
* open, handle of process heap, handle of procs window station, types of
* events in input queue, and milliseconds since Windows was started */
{ byte buffer[20*sizeof(ulong)], *bufptr;
bufptr = buffer;
#define ADD(f) do { ulong along = (ulong)(f); \
memcpy (bufptr, &along, sizeof (along) ); \
bufptr += sizeof (along); } while (0)
ADD ( GetActiveWindow ());
ADD ( GetCapture ());
ADD ( GetClipboardOwner ());
ADD ( GetClipboardViewer ());
ADD ( GetCurrentProcess ());
ADD ( GetCurrentProcessId ());
ADD ( GetCurrentThread ());
ADD ( GetCurrentThreadId ());
ADD ( GetDesktopWindow ());
ADD ( GetFocus ());
ADD ( GetInputState ());
ADD ( GetMessagePos ());
ADD ( GetMessageTime ());
ADD ( GetOpenClipboardWindow ());
ADD ( GetProcessHeap ());
ADD ( GetProcessWindowStation ());
ADD ( GetQueueStatus (QS_ALLEVENTS));
ADD ( GetTickCount ());
assert ( bufptr-buffer < sizeof (buffer) );
(*add) ( buffer, bufptr-buffer, requester );
#undef ADD
}
/* Get multiword system information: Current caret position, current
* mouse cursor position */
{ POINT point;
GetCaretPos (&point);
(*add) ( &point, sizeof (point), requester );
GetCursorPos (&point);
(*add) ( &point, sizeof (point), requester );
}
/* Get percent of memory in use, bytes of physical memory, bytes of free
* physical memory, bytes in paging file, free bytes in paging file, user
* bytes of address space, and free user bytes */
{ MEMORYSTATUS memoryStatus;
memoryStatus.dwLength = sizeof (MEMORYSTATUS);
GlobalMemoryStatus (&memoryStatus);
(*add) ( &memoryStatus, sizeof (memoryStatus), requester );
}
/* Get thread and process creation time, exit time, time in kernel mode,
and time in user mode in 100ns intervals */
{ HANDLE handle;
FILETIME creationTime, exitTime, kernelTime, userTime;
DWORD minimumWorkingSetSize, maximumWorkingSetSize;
handle = GetCurrentThread ();
GetThreadTimes (handle, &creationTime, &exitTime,
&kernelTime, &userTime);
(*add) ( &creationTime, sizeof (creationTime), requester );
(*add) ( &exitTime, sizeof (exitTime), requester );
(*add) ( &kernelTime, sizeof (kernelTime), requester );
(*add) ( &userTime, sizeof (userTime), requester );
handle = GetCurrentProcess ();
GetProcessTimes (handle, &creationTime, &exitTime,
&kernelTime, &userTime);
(*add) ( &creationTime, sizeof (creationTime), requester );
(*add) ( &exitTime, sizeof (exitTime), requester );
(*add) ( &kernelTime, sizeof (kernelTime), requester );
(*add) ( &userTime, sizeof (userTime), requester );
/* Get the minimum and maximum working set size for the current process */
GetProcessWorkingSetSize (handle, &minimumWorkingSetSize,
&maximumWorkingSetSize);
(*add) ( &minimumWorkingSetSize,
sizeof (&minimumWorkingSetSize), requester );
(*add) ( &maximumWorkingSetSize,
sizeof (&maximumWorkingSetSize), requester );
}
/* The following are fixed for the lifetime of the process so we only
* add them once */
if (!addedFixedItems) {
STARTUPINFO startupInfo;
/* Get name of desktop, console window title, new window position and
* size, window flags, and handles for stdin, stdout, and stderr */
startupInfo.cb = sizeof (STARTUPINFO);
GetStartupInfo (&startupInfo);
(*add) ( &startupInfo, sizeof (STARTUPINFO), requester );
addedFixedItems = 1;
}
/* The performance of QPC varies depending on the architecture it's
* running on and on the OS. Under NT it reads the CPU's 64-bit timestamp
* counter (at least on a Pentium and newer '486's, it hasn't been tested
* on anything without a TSC), under Win95 it reads the 1.193180 MHz PIC
* timer. There are vague mumblings in the docs that it may fail if the
* appropriate hardware isn't available (possibly '386's or MIPS machines
* running NT), but who's going to run NT on a '386? */
{ LARGE_INTEGER performanceCount;
if (QueryPerformanceCounter (&performanceCount)) {
if ( debug_me )
log_debug ("rndw32#gather_random_fast: perf data\n");
(*add) (&performanceCount, sizeof (&performanceCount), requester);
}
else { /* Millisecond accuracy at best... */
DWORD aword = GetTickCount ();
(*add) (&aword, sizeof (aword), requester );
}
}
return 0;
}
#endif /* !USE_ENTROPY_DLL */
#ifndef IS_MODULE
static
#endif
const char * const gnupgext_version = "RNDW32 ($Revision$)";
static struct {
int class;
int version;
void *func;
} func_table[] = {
{ 40, 1, gather_random },
{ 41, 1, gather_random_fast },
};
#ifndef IS_MODULE
static
#endif
void *
gnupgext_enum_func( int what, int *sequence, int *class, int *vers )
{
void *ret;
int i = *sequence;
debug_me = !!getenv("DEBUG_RNDW32");
do {
if ( i >= DIM(func_table) || i < 0 ) {
return NULL;
}
*class = func_table[i].class;
*vers = func_table[i].version;
ret = func_table[i].func;
i++;
} while ( what && what != *class );
*sequence = i;
return ret;
}
#ifndef IS_MODULE
void
rndw32_constructor(void)
{
register_internal_cipher_extension( gnupgext_version,
gnupgext_enum_func );
}
#endif