added: #isWin7Like
changed:6 methods
- getHostName returns the FQDN
- Windows7 queries
"
COPYRIGHT (c) 1988 by Claus Gittinger
COPYRIGHT (c) 1998-2004 by eXept Software AG
All Rights Reserved
This software is furnished under a license and may be used
only in accordance with the terms of that license and with the
inclusion of the above copyright notice. This software may not
be provided or otherwise made available to, or used by, any
other person. No title to or ownership of the software is
hereby transferred.
"
"{ Package: 'stx:libbasic' }"
AbstractOperatingSystem subclass:#Win32OperatingSystem
instanceVariableNames:''
classVariableNames:'Initialized HostName DomainName CurrentDirectory'
poolDictionaries:'Win32Constants'
category:'OS-Windows'
!
ByteArray variableByteSubclass:#DevModeStructure
instanceVariableNames:''
classVariableNames:''
poolDictionaries:''
privateIn:Win32OperatingSystem
!
ByteArray variableByteSubclass:#DocInfoStructure
instanceVariableNames:''
classVariableNames:''
poolDictionaries:''
privateIn:Win32OperatingSystem
!
Object subclass:#FileStatusInfo
instanceVariableNames:'type mode uid gid size id accessed modified created statusChanged
sourcePath linkTargetPath fullPathName alternativePathName'
classVariableNames:''
poolDictionaries:''
privateIn:Win32OperatingSystem
!
Object subclass:#OSProcessStatus
instanceVariableNames:'pid status code core'
classVariableNames:''
poolDictionaries:''
privateIn:Win32OperatingSystem
!
Object subclass:#PerformanceData
instanceVariableNames:'objectArray perfTime perfFreq perfTime100nSec'
classVariableNames:'PerformanceText CounterIndexTextDictionary
HelpIndexTextDictionary'
poolDictionaries:''
privateIn:Win32OperatingSystem
!
Object subclass:#Abstract
instanceVariableNames:'lastData lastTimestamp cachedResults'
classVariableNames:''
poolDictionaries:''
privateIn:Win32OperatingSystem::PerformanceData
!
Win32OperatingSystem::PerformanceData::Abstract subclass:#DiskIO
instanceVariableNames:''
classVariableNames:'TheOneAndOnlyInstance'
poolDictionaries:''
privateIn:Win32OperatingSystem::PerformanceData
!
Win32OperatingSystem::PerformanceData::Abstract subclass:#Global
instanceVariableNames:''
classVariableNames:'TheOneAndOnlyInstance'
poolDictionaries:''
privateIn:Win32OperatingSystem::PerformanceData
!
Win32OperatingSystem::PerformanceData::Abstract subclass:#Memory
instanceVariableNames:''
classVariableNames:'TheOneAndOnlyInstance'
poolDictionaries:''
privateIn:Win32OperatingSystem::PerformanceData
!
Win32OperatingSystem::PerformanceData::Abstract subclass:#Network
instanceVariableNames:''
classVariableNames:'TheOneAndOnlyInstance'
poolDictionaries:''
privateIn:Win32OperatingSystem::PerformanceData
!
Win32OperatingSystem::PerformanceData::Abstract subclass:#Process
instanceVariableNames:''
classVariableNames:'TheOneAndOnlyInstance'
poolDictionaries:''
privateIn:Win32OperatingSystem::PerformanceData
!
Win32OperatingSystem::PerformanceData::Abstract subclass:#Processor
instanceVariableNames:''
classVariableNames:'TheOneAndOnlyInstance'
poolDictionaries:''
privateIn:Win32OperatingSystem::PerformanceData
!
ByteArray variableByteSubclass:#PrinterInfo2Structure
instanceVariableNames:''
classVariableNames:''
poolDictionaries:''
privateIn:Win32OperatingSystem
!
Object subclass:#RegistryEntry
instanceVariableNames:'path handle'
classVariableNames:'Lobby HKEY_CLASSES_ROOT HKEY_CURRENT_USER HKEY_LOCAL_MACHINE
HKEY_USERS HKEY_PERFORMANCE_DATA HKEY_CURRENT_CONFIG
HKEY_DYN_DATA HKEY_PERFORMANCE_TEXT HKEY_PERFORMANCE_NLSTEXT'
poolDictionaries:''
privateIn:Win32OperatingSystem
!
ByteArray variableByteSubclass:#TextMetricsStructure
instanceVariableNames:''
classVariableNames:''
poolDictionaries:''
privateIn:Win32OperatingSystem
!
OSHandle subclass:#Win32IOHandle
instanceVariableNames:''
classVariableNames:'Lobby'
poolDictionaries:''
privateIn:Win32OperatingSystem
!
Win32Handle subclass:#Win32PrinterHandle
instanceVariableNames:''
classVariableNames:''
poolDictionaries:''
privateIn:Win32OperatingSystem
!
Win32Handle subclass:#Win32ProcessHandle
instanceVariableNames:'pid'
classVariableNames:''
poolDictionaries:''
privateIn:Win32OperatingSystem
!
Win32OperatingSystem::Win32IOHandle subclass:#Win32SerialPortHandle
instanceVariableNames:''
classVariableNames:''
poolDictionaries:''
privateIn:Win32OperatingSystem
!
Win32OperatingSystem::Win32IOHandle subclass:#Win32SocketHandle
instanceVariableNames:''
classVariableNames:''
poolDictionaries:''
privateIn:Win32OperatingSystem
!
ByteArray variableByteSubclass:#WinPointStructure
instanceVariableNames:''
classVariableNames:''
poolDictionaries:''
privateIn:Win32OperatingSystem
!
!Win32OperatingSystem primitiveDefinitions!
%{
#include "stxOSDefs.h"
/*
* ensure that ST/X runs on NT, 95 and 98
* (however, this disables some Win2K and XP features (sigh)
*/
# ifndef WINVER
# define WINVER 0x0400
# endif
#if WINVER < 0x0400
# define NO_GETADAPTERSINFO
#endif
#define USE_H_ERRNO
# if defined(i386) || defined(__i386__)
# ifndef _X86_
# define _X86_
# endif
# endif
/*
* notice: although many systems' include files
* already block against multiple inclusion, some
* do not. Therefore, this is done here again.
* (it does not hurt)
*/
# ifndef _SIGNAL_H_INCLUDED_
# include <signal.h>
# define _SIGNAL_H_INCLUDED_
# endif
# ifndef _SYS_TYPES_H_INCLUDED_
# include <sys/types.h>
# define _SYS_TYPES_H_INCLUDED_
# endif
# ifndef _TIME_H_INCLUDED_
# include <time.h>
# define _TIME_H_INCLUDED_
# endif
# ifndef _SYS_TIMEB_H_INCLUDED_
# include <sys/timeb.h>
# define _SYS_TIMEB_H_INCLUDED_
# endif
# ifndef _SYS_STAT_H_INCLUDED_
# include <sys/stat.h>
# define _SYS_STAT_H_INCLUDED_
# endif
# ifndef _ERRNO_H_INCLUDED_
# include <errno.h>
# define _ERRNO_H_INCLUDED_
# endif
# ifndef _STDIO_H_INCLUDED_
# include <stdio.h>
# define _STDIO_H_INCLUDED_
# endif
# ifndef _FCNTL_H_INCLUDED_
# include <fcntl.h>
# define _FCNTL_H_INCLUDED_
# endif
/* # define PROCESSDEBUGWIN32 /* */
/* # define PROCESS1DEBUGWIN32 /* */
/* # define PROCESS2DEBUGWIN32 /* */
/* # define PROCESSDEBUG_CHILDPROCESSWAIT /* */
/* # define SELECTDEBUGWIN32 /* */
/* # define SELECT1DEBUGWIN32 /* */
/* # define SELECT2DEBUGWIN32 /* */
/* # define WAITDEBUGWIN32 /* */
/* # define SIGNALDEBUGWIN32 /* */
# undef INT
# undef Array
# undef Number
# undef Method
# undef Point
# undef Rectangle
# undef Block
# undef String
# undef Message
# undef Object
# undef Class
# undef Context
# undef Time
# undef Date
# undef Set
# undef Signal
# undef Delay
# undef Message
# undef Process
# undef NameSpace
# undef Processor
# include <stdarg.h> /* */
# ifndef WINDOWS_H_INCLUDED
# define WINDOWS_H_INCLUDED
# include <windows.h>
# endif
# ifndef TLHELP32_H_INCLUDE
# define TLHELP32_H_INCLUDE
# include <TLHELP32.h> /* to get all processes in system */
#endif
# ifndef NO_GETADAPTERSINFO
# include <iphlpapi.h>
# endif
# ifndef WINDOWSX_H_INCLUDED
# define WINDOWSX_H_INCLUDED
# include <windowsx.h>
# endif
# define _WIN32_DCOM /*required for CoInitializeEx*/
# define WINVER 0x0500 /*required for CoInitializeEx*/
# include <objbase.h> //for COM
# include <shlobj.h>
# include <objbase.h>
# include <initguid.h>
# ifndef _STRING_H_INCLUDED_
# define _STRING_H_INCLUDED_
# include <string.h>
# endif
# ifdef __DEF_Array
# define Array __DEF_Array
# endif
# ifdef __DEF_Number
# define Number __DEF_Number
# endif
# ifdef __DEF_Method
# define Method __DEF_Method
# endif
# ifdef __DEF_Point
# define Point __DEF_Point
# endif
# ifdef __DEF_Rectangle
# define Rectangle __DEF_Rectangle
# endif
# ifdef __DEF_Block
# define Block __DEF_Block
# endif
# ifdef __DEF_String
# define String __DEF_String
# endif
# ifdef __DEF_Message
# define Message __DEF_Message
# endif
# ifdef __DEF_Object
# define Object __DEF_Object
# endif
# ifndef __DEF_Class
# define Class __DEF_Class
# endif
# ifdef __DEF_Context
# define Context __DEF_Context
# endif
# ifdef __DEF_Date
# define Date __DEF_Date
# endif
# ifdef __DEF_Time
# define Time __DEF_Time
# endif
# ifdef __DEF_Set
# define Set __DEF_Set
# endif
# ifdef __DEF_Signal
# define Signal __DEF_Signal
# endif
# ifdef __DEF_Delay
# define Delay __DEF_Delay
# endif
# ifdef __DEF_Message
# define Message __DEF_Message
# endif
# ifdef __DEF_Process
# define Process __DEF_Process
# endif
# ifdef __DEF_Processor
# define Processor __DEF_Processor
# endif
# ifdef __DEF_NameSpace
# define NameSpace __DEF_NameSpace
# endif
# define INT int
typedef int (*intf)(int);
BOOL __signalUserInterruptWIN32(DWORD sig);
# if defined (HAS_LOCALECONV)
# ifndef _LOCALE_H_INCLUDED_
# include <locale.h>
# define _LOCALE_H_INCLUDED_
# endif
# endif
# ifdef __BORLANDC__
# include <dir.h>
# define MAXPATHLEN MAXPATH
# define MAXFILELEN MAXFILE
OBJ _SEND0(OBJ, OBJ, OBJ, inlineCachePtr);
OBJ _SEND1(OBJ, OBJ, OBJ, inlineCachePtr, OBJ);
OBJ _SEND2(OBJ, OBJ, OBJ, inlineCachePtr, OBJ, OBJ);
OBJ _SEND3(OBJ, OBJ, OBJ, inlineCachePtr, OBJ, OBJ, OBJ);
# endif /* BORLANDC */
# ifndef __BORLANDC__
# define chmod _chmod
# endif /* not BORLANDC */
# ifndef MAXPATHLEN
# ifndef MSDOS_LIKE
# ifndef NO_SYS_PARAM_H
# include <sys/param.h>
# endif
# endif
# ifndef MAXPATHLEN
# ifdef FILENAME_MAX /* i.e. MSDOS_LIKE */
# define MAXPATHLEN FILENAME_MAX
# else
# ifdef MAX_PATH
# define MAXPATHLEN MAX_PATH
# else
# define MAXPATHLEN 1024
# endif
# endif
# endif
# endif
/*
* sigaction dummies (you won't believe these call themself ``POSIX'' systems ...)
*/
# ifndef SA_RESTART
# define SA_RESTART 0
# endif
# ifndef SA_SIGINFO
# define SA_SIGINFO 0
# endif
# if defined(HAS_WAITPID) || defined(HAS_WAIT3)
# include <sys/wait.h>
# endif
# if defined(HAS_SYSINFO)
# include <sys/systeminfo.h>
# endif
# ifndef __BORLANDC__
# ifndef COINIT_MULTITHREADED
# define COINIT_MULTITHREADED 0x0
# endif
# endif
#define SIGHANDLER_ARG int
#define _HANDLEVal(o) (HANDLE)(__externalAddressVal(o))
%}
! !
!Win32OperatingSystem primitiveVariables!
%{
static int coInitialized = 0;
%}
! !
!Win32OperatingSystem primitiveFunctions!
%{
/* isWindows-NT flag:
* 1 for NT based systemes, such as NT,XP or 2k
* 0 for w95 based systems, such as w95/w98/ME
*/
static int __isWinNT = 0;
#define __wait wait
static int
_canAccessIOWithoutBlocking (aFD, readMode)
int aFD;
int readMode;
{
struct timeval tv;
fd_set fds;
int n;
int winErrNo;
/* we use the osfhandle insteat of the fd !! WHY ?? (I do not know)
but otherwise it not works
*/
int sock = (int) _get_osfhandle (aFD);
FD_ZERO( & fds );
FD_SET ( sock, & fds );
tv.tv_sec = 0;
tv.tv_usec = 0;
if (readMode) {
n = select (sock + 1, & fds, NULL, NULL, & tv);
} else {
n = select (sock + 1, NULL, & fds, NULL, & tv);
}
if (n == 0) {
return (0);
}
if (n > 0) {
return ((FD_ISSET (sock, & fds)) ? 1 : 0);
}
winErrNo = WSAGetLastError();
switch (winErrNo) {
case WSAENOTSOCK:
if (readMode) {
DWORD w = 0;
HANDLE h = (HANDLE) _get_osfhandle (aFD);
if (PeekNamedPipe (h, 0, 0, 0, & w, 0)) {
if( !__isWinNT || w > 0 )
return (1);
return (0);
}
#if 0
console_fprintf(stderr, "_canAccessIOWithoutBlocking non Socket\n");
#endif
return (-1);
}
/* in writeMode we return allways true for none-sockets */
return (1);
case WSAEINPROGRESS:
case WSAEWOULDBLOCK:
return (0);
default:
console_fprintf(stderr, "_canAccessIOWithoutBlocking -> %d (0x%x)\n", winErrNo, winErrNo);
return (-1);
}
/* not reached */
return (0);
}
#define _canReadWithoutBlocking(fd) _canAccessIOWithoutBlocking(fd, 1)
#define _canWriteWithoutBlocking(fd) _canAccessIOWithoutBlocking(fd, 0)
/*
* Attention: some API calls are not available on old NT4.0/W95/W98
* For those, the dll does not include the calls directly, but tries to
* load the library and looks what we get.
* Here are support functions to load the libs.
*/
static FARPROC
__get_functionAddress(HINSTANCE *pLibHandle, char *libraryName, char *functionName)
{
FARPROC entry;
if (*pLibHandle == NULL) {
*pLibHandle = LoadLibrary(libraryName);
}
entry = GetProcAddress(*pLibHandle, functionName);
return entry;
}
static FARPROC
__get_kernel32_functionAddress(char *functionName)
{
static HINSTANCE libHandle = NULL;
return __get_functionAddress(&libHandle, "kernel32.DLL", functionName);
}
static FARPROC
__get_iphlpapi_functionAddress(functionName)
char *functionName;
{
static HINSTANCE libHandle = NULL;
return __get_functionAddress(&libHandle, "iphlpapi.DLL", functionName);
}
static FARPROC
__get_ole32_functionAddress(functionName)
char *functionName;
{
static HINSTANCE libHandle = NULL;
return __get_functionAddress(&libHandle, "ole32.DLL", functionName);
}
void
TimetToFileTime( time_t t, LPFILETIME pft )
{
LONGLONG ll = Int32x32To64(t, 10000000) + 116444736000000000;
pft->dwLowDateTime = (DWORD) ll;
pft->dwHighDateTime = ll >>32;
}
OBJ
FileTimeToOsTime(LPFILETIME pft)
{
LONGLONG lTime = ((LONGLONG)pft->dwHighDateTime << 32) + pft->dwLowDateTime;
lTime = (lTime / 10000) - 11644473600000;
return(__MKLARGEINT64(1, (unsigned INT)(lTime & 0xFFFFFFFF), (unsigned INT)(lTime >> 32)));
}
%}
! !
!Win32OperatingSystem class methodsFor:'documentation'!
copyright
"
COPYRIGHT (c) 1988 by Claus Gittinger
COPYRIGHT (c) 1998-2004 by eXept Software AG
All Rights Reserved
This software is furnished under a license and may be used
only in accordance with the terms of that license and with the
inclusion of the above copyright notice. This software may not
be provided or otherwise made available to, or used by, any
other person. No title to or ownership of the software is
hereby transferred.
"
!
documentation
"
this class resulted from extracting WIN32 specifics of the old
OperatingSystemClass into this sub-class.
You may find some leftover unix stuff, which will go away sooner
or later.
this class realizes access to most (all ?) required operating system services;
some of it is very specific for unix, so do not depend on
things available here in your applications
- some may not be found in other OS's or be slightly different ...
(On the other hand: I do not want to hide all features
from you - in some situations it MAY be interesting to be
able to get down to a select or fork system call easily (at least on Unix systems).
You decide - portability vs. functionality)
[Class variables:]
HostName <String> remembered hostname
DomainName <String> remembered domainname
CurrentDirectory <String> remembered currentDirectories path
[author:]
Claus Gittinger (initial version & cleanup)
Manfred Dierolf (many features)
[see also:]
OSProcessStatus
Filename Date Time
ExternalStream FileStream PipeStream Socket
"
!
examples
"
various queries
[exBegin]
Transcript
showCR:'hello ' , (OperatingSystem getLoginName)
[exEnd]
[exBegin]
OperatingSystem isUNIXlike ifTrue:[
Transcript showCR:'this is some UNIX-like OS'
] ifFalse:[
Transcript showCR:'this OS is not UNIX-like'
]
[exEnd]
[exBegin]
Transcript
showCR:'this machine is called ' , OperatingSystem getHostName
[exEnd]
[exBegin]
Transcript
showCR:('this machine is in the '
, OperatingSystem getDomainName
, ' domain')
[exEnd]
[exBegin]
Transcript
showCR:('this machine''s CPU is a '
, OperatingSystem getCPUType
)
[exEnd]
[exBegin]
Transcript showCR:'executing ls command ...'.
OperatingSystem executeCommand:'ls'.
Transcript showCR:'... done.'.
[exEnd]
locking a file
(should be executed on two running smalltalks - not in two threads):
[exBegin]
|f|
f := 'testFile' asFilename readWriteStream.
10 timesRepeat:[
'about to lock ...' printCR.
[
OperatingSystem
lockFD:(f fileDescriptor)
shared:false
blocking:false
] whileFalse:[
'process ' print. OperatingSystem getProcessId print. ' is waiting' printCR.
Delay waitForSeconds:1
].
'LOCKED ...' printCR.
Delay waitForSeconds:10.
'unlock ...' printCR.
(OperatingSystem
unlockFD:(f fileDescriptor)) printCR.
Delay waitForSeconds:3.
]
[exBegin]
"
! !
!Win32OperatingSystem class methodsFor:'initialization'!
coInitialize
%{
HRESULT hres;
if( ! coInitialized ) {
#ifdef NO_NT4_0_COMPATIBILITY
FARPROC CoInitializeEx_entry = (FARPROC) CoInitializeEx;
#else
FARPROC CoInitializeEx_entry = __get_ole32_functionAddress("CoInitializeEx");
#endif /* NO_NT4_0_COMPATIBILITY */
hres = (*CoInitializeEx_entry)(NULL, COINIT_MULTITHREADED);
if (! SUCCEEDED(hres)) {
console_fprintf(stderr, "OperatingSystem [info]: Could not open the COM library hres = %08x\n", hres );
goto error;
}
coInitialized = 1;
#ifdef COM_DEBUG
console_fprintf(stderr, "OperatingSystem [info]: COM initialized\n" );
#endif
}
RETURN (self );
error: ;
%}.
self primitiveFailed
!
initOSType
"internal - see if running under win-NT/XP/2k
(as opposed to win-95/98/ME)"
%{ /* NOCONTEXT */
OSVERSIONINFO osvi;
memset(&osvi, 0, sizeof(OSVERSIONINFO));
osvi.dwOSVersionInfoSize = sizeof (OSVERSIONINFO);
GetVersionEx (&osvi);
if (osvi.dwPlatformId == VER_PLATFORM_WIN32_NT) {
__isWinNT = 1;
} else {
__isWinNT = 0;
}
%}.
!
initialize
"initialize the class"
"/ attention: must be ok to be called twice during startup.
Initialized == nil ifTrue:[
Initialized := true.
ObjectMemory addDependent:self.
HostName := nil.
DomainName := nil.
LastErrorNumber := nil.
PipeFailed := false.
self initOSType.
self coInitialize.
].
"Modified: 13.9.1997 / 10:47:32 / cg"
!
update:something with:aParameter from:changedObject
"catch image restart and flush some cached data"
something == #earlyRestart ifTrue:[
"
flush cached data
"
HostName := nil.
DomainName := nil.
LastErrorNumber := nil.
PipeFailed := false.
self initOSType.
self coInitialize.
]
"Modified: 22.4.1996 / 13:10:43 / cg"
"Created: 15.6.1996 / 15:22:37 / cg"
"Modified: 7.1.1997 / 19:36:11 / stefan"
! !
!Win32OperatingSystem class methodsFor:'OS signal constants'!
sigABRT
"return the signal number for SIGABRT - 0 if not supported by OS
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGABRT
RETURN ( __mkSmallInteger(SIGABRT) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigALRM
"return the signal number for SIGALRM - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGALRM
RETURN ( __mkSmallInteger(SIGALRM) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigBREAK
"return the signal number for SIGBREAK - 0 if not supported.
This is an MSDOS specific signal"
%{ /* NOCONTEXT */
#ifdef SIGBREAK
RETURN ( __mkSmallInteger(SIGBREAK) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigBUS
"return the signal number for SIGBUS - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGBUS
RETURN ( __mkSmallInteger(SIGBUS) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigCHLD
"return the signal number for SIGCHLD - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGCHLD)
RETURN ( __mkSmallInteger(SIGCHLD) );
#else
# if defined(SIGCLD)
RETURN ( __mkSmallInteger(SIGCLD) );
# else
RETURN ( __mkSmallInteger(0) );
# endif
#endif
%}
!
sigCONT
"return the signal number for SIGCONT - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGCONT)
RETURN ( __mkSmallInteger(SIGCONT) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigDANGER
"return the signal number for SIGDANGER - 0 if not supported
(seems to be an AIX special)"
%{ /* NOCONTEXT */
#if defined(SIGDANGER)
RETURN ( __mkSmallInteger(SIGDANGER) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigEMT
"return the signal number for SIGEMT - 0 if not supported by OS
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGEMT
RETURN ( __mkSmallInteger(SIGEMT) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigFP
"return the signal number for SIGFP - 0 if not supported by OS
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGFPE
RETURN ( __mkSmallInteger(SIGFPE) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigGRANT
"return the signal number for SIGGRANT - 0 if not supported
(seems to be an AIX special)"
%{ /* NOCONTEXT */
#if defined(SIGGRANT)
RETURN ( __mkSmallInteger(SIGGRANT) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigHUP
"return the signal number for SIGHUP
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGHUP
RETURN ( __mkSmallInteger(SIGHUP) );
#else
RETURN ( __mkSmallInteger(1) );
#endif
%}
!
sigILL
"return the signal number for SIGILL - 0 if not supported by OS
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGILL
RETURN ( __mkSmallInteger(SIGILL) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigINT
"return the signal number for SIGINT
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGINT
RETURN ( __mkSmallInteger(SIGINT) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigIO
"return the signal number for SIGIO - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGIO)
RETURN ( __mkSmallInteger(SIGIO) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigIOT
"return the signal number for SIGIOT - 0 if not supported by OS
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGIOT
RETURN ( __mkSmallInteger(SIGIOT) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigKILL
"return the signal number for SIGKILL
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGKILL
RETURN ( __mkSmallInteger(SIGKILL) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigLOST
"return the signal number for SIGLOST - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGLOST)
RETURN ( __mkSmallInteger(SIGLOST) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigMIGRATE
"return the signal number for SIGMIGRATE - 0 if not supported
(seems to be an AIX special)"
%{ /* NOCONTEXT */
#if defined(SIGMIGRATE)
RETURN ( __mkSmallInteger(SIGMIGRATE) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigMSG
"return the signal number for SIGMSG - 0 if not supported
(seems to be an AIX special)"
%{ /* NOCONTEXT */
#if defined(SIGMSG)
RETURN ( __mkSmallInteger(SIGMSG) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigPIPE
"return the signal number for SIGPIPE - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGPIPE
RETURN ( __mkSmallInteger(SIGPIPE) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigPOLL
"return the signal number for SIGPOLL - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGPOLL)
RETURN ( __mkSmallInteger(SIGPOLL) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigPRE
"return the signal number for SIGPRE - 0 if not supported
(seems to be an AIX special)"
%{ /* NOCONTEXT */
#if defined(SIGPRE)
RETURN ( __mkSmallInteger(SIGPRE) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigPROF
"return the signal number for SIGPROF - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGPROF)
RETURN ( __mkSmallInteger(SIGPROF) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigPWR
"return the signal number for SIGPWR - 0 if not supported
(not available on all systems)"
%{ /* NOCONTEXT */
#if defined(SIGPWR)
RETURN ( __mkSmallInteger(SIGPWR) );
#else
RETURN ( __mkSmallInteger(30) );
#endif
%}
!
sigQUIT
"return the signal number for SIGQUIT
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGQUIT
RETURN ( __mkSmallInteger(SIGQUIT) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigRETRACT
"return the signal number for SIGRETRACT - 0 if not supported
(seems to be an AIX special)"
%{ /* NOCONTEXT */
#if defined(SIGRETRACT)
RETURN ( __mkSmallInteger(SIGRETRACT) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigSAK
"return the signal number for SIGSAK - 0 if not supported
(seems to be an AIX special)"
%{ /* NOCONTEXT */
#if defined(SIGSAK)
RETURN ( __mkSmallInteger(SIGSAK) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigSEGV
"return the signal number for SIGSEGV - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGSEGV
RETURN ( __mkSmallInteger(SIGSEGV) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigSOUND
"return the signal number for SIGSOUND - 0 if not supported
(seems to be an AIX special)"
%{ /* NOCONTEXT */
#if defined(SIGSOUND)
RETURN ( __mkSmallInteger(SIGSOUND) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigSTOP
"return the signal number for SIGSTOP - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGSTOP)
RETURN ( __mkSmallInteger(SIGSTOP) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigSYS
"return the signal number for SIGSYS - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGSYS
RETURN ( __mkSmallInteger(SIGSYS) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigTERM
"return the signal number for SIGTERM - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGTERM
RETURN ( __mkSmallInteger(SIGTERM) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigTRAP
"return the signal number for SIGTRAP - 0 if not supported by OS
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#ifdef SIGTRAP
RETURN ( __mkSmallInteger(SIGTRAP) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigTSTP
"return the signal number for SIGTSTP - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGTSTP)
RETURN ( __mkSmallInteger(SIGTSTP) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigTTIN
"return the signal number for SIGTTIN - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGTTIN)
RETURN ( __mkSmallInteger(SIGTTIN) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigTTOU
"return the signal number for SIGTTOU - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGTTOU)
RETURN ( __mkSmallInteger(SIGTTOU) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigURG
"return the signal number for SIGURG - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGURG)
RETURN ( __mkSmallInteger(SIGURG) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigUSR1
"return the signal number for SIGUSR1 - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGUSR1)
RETURN ( __mkSmallInteger(SIGUSR1) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigUSR2
"return the signal number for SIGUSR2 - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGUSR2)
RETURN ( __mkSmallInteger(SIGUSR2) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigVTALRM
"return the signal number for SIGVTALRM - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGVTALRM)
RETURN ( __mkSmallInteger(SIGVTALRM) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigWINCH
"return the signal number for SIGWINCH - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGWINCH)
RETURN ( __mkSmallInteger(SIGWINCH) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigXCPU
"return the signal number for SIGXCPU - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGXCPU)
RETURN ( __mkSmallInteger(SIGXCPU) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
!
sigXFSZ
"return the signal number for SIGXFSZ - 0 if not supported
(the numeric value is not the same across unix-systems)"
%{ /* NOCONTEXT */
#if defined(SIGXFSZ)
RETURN ( __mkSmallInteger(SIGXFSZ) );
#else
RETURN ( __mkSmallInteger(0) );
#endif
%}
! !
!Win32OperatingSystem class methodsFor:'VM messages'!
win32LogFile
"return the name of the log file.
This is mostly used by standAlone apps, without a console,
which write their log info into a file named xxx_log_xxx.log.
The default logFilename is defined be the make-build process, and
can be overwritten by a command line argumen (--logFile). In order to
provide access to that files path (for example, to open an editor on it),
use this method to ask for the files name.
Returns nil, of nothing has been written to the logfile, yet.
Enforce a logFile, by doing an errorPrint or infoPrint first."
|ret|
%{
extern char *__win32_getLogFilename();
char *lp;
lp = __win32_getLogFilename();
if (lp) {
ret = __MKSTRING(lp);
}
%}.
^ ret
"
Win32OperatingSystem win32LogFile
"
!
win32LogFile:aFilenameOrNil
"change the file, into which log info is written.
This is mostly used by standAlone apps, without a console,
which write their log info into a file named xxx_log_xxx.log"
|logFilePath|
aFilenameOrNil notNil ifTrue:[
logFilePath := aFilenameOrNil asFilename pathName
].
%{
extern void __win32_setLogFile();
if (__isStringLike(logFilePath)) {
__win32_setLogFile(__stringVal(logFilePath));
} else {
__win32_setLogFile( NULL );
}
%}
"
Win32OperatingSystem win32LogFile:'myLog.log'
Win32OperatingSystem win32LogFile:nil
"
! !
!Win32OperatingSystem class methodsFor:'accessing'!
performanceData
^ PerformanceData
! !
!Win32OperatingSystem class methodsFor:'clipboard'!
clipboardContainsBitmap
"Answer whether the clipboard contains a bitmap."
^self clipboardContainsFormat: 2 "CfBitmap"
!
clipboardContainsFormat: aCfConstant
"Answer true if the clipboard contains data in
the format described by aCfConstant. "
^self primIsClipboardFormatAvailable: aCfConstant
!
closeClipboard
| result |
result := self primCloseClipboard.
result ifFalse: [ ^self error].
^result
!
emptyClipboard
"Private - empty the clipboard. Note: it must be opened first."
| result |
result := self primEmptyClipboard.
result ifFalse: [ ^self error].
^result
!
getDesktopWindow
^self primGetDesktopWindow
!
openClipboard
^self openClipboard: self getDesktopWindow
!
openClipboard: aHwnd
| result |
result := self primOpenClipboard: aHwnd.
result ifFalse: [ ^self error].
^result
!
primCloseClipboard
<apicall: bool "CloseClipboard" () module: "user32.dll" >
^self primitiveFailed
!
primEmptyClipboard
<apicall: bool "EmptyClipboard" () module: "user32.dll" >
^self primitiveFailed
!
primGetDesktopWindow
<apicall: ulongReturn "GetDesktopWindow" () module: "user32.dll" >
^self primitiveFailed
!
primIsClipboardFormatAvailable: aCfConstant
<apicall: boolean "IsClipboardFormatAvailable" (ulong) module: "user32.dll" >
^self primitiveFailed
!
primOpenClipboard: aHwnd
<apicall: bool "OpenClipboard" (ulong) module: "user32.dll" >
^self primitiveFailed
!
primSetClipboardData: aCfConstant hMem: aMemHandle
<apicall: ulongReturn "SetClipboardData" (ulong ulong) module: "user32.dll" >
^self primitiveFailed
!
setBitmapToClipboard: aBitmap
"Copy aBitmap to the clipboard."
| handle |
aBitmap isNil ifTrue:[ ^nil ].
aBitmap id isNil ifTrue:[aBitmap onDevice: Screen current].
handle := aBitmap id.
handle isNil ifTrue: [ ^nil ].
self openClipboard ifFalse: [ ^nil ].
self emptyClipboard.
self setClipboardData: 2 "CfBitmap" hMem: handle.
self closeClipboard
"
self setBitmapToClipboard: Image fromUser
"
!
setClipboardData: aCfConstant hMem: aMemHandle
|result|
result := self primSetClipboardData: aCfConstant hMem: aMemHandle address.
result = 0 ifTrue: [ ^self error ].
! !
!Win32OperatingSystem class methodsFor:'error messages'!
currentErrorNumber
"returns the OS's last error nr (i.e. the value of errno).
Notice, that the value of this flag is only valid immediately
after the error occurred - it gets updated with every other
request to the OS.
Use lastErrorNumber - currentErrorNumber is invalidated by
many, many internal calls."
%{ /* NOCONTEXT */
RETURN ( __mkSmallInteger(__threadErrno) );
%}
"
OperatingSystem currentErrorNumber
"
!
errorHolderForNumber:errNr
"return an osErrorHolder for the given error number (as returned by a system call)."
|sym typ holder|
%{
/* claus:
* I made this primitive code, since errnos are not
* standard across unixes
*/
typ = @symbol(defaultOsErrorSignal);
sym = @symbol(ERROR_OTHER);
if (__isSmallInteger(errNr) || (__unsignedLongIntVal(errNr) > 0)) {
int __eno = __unsignedLongIntVal(errNr);
if (__isWIN32Error(__eno)) {
switch (__eno & 0xFFFF) {
/*
* WIN32 GetLastError returns
*/
case ERROR_INVALID_FUNCTION:
sym = @symbol(ERROR_INVALID_FUNCTION);
typ = @symbol(illegalOperationSignal);
break;
case ERROR_BAD_FORMAT:
sym = @symbol(ERROR_BAD_FORMAT);
typ = @symbol(invalidArgumentsSignal);
break;
case ERROR_FILE_NOT_FOUND:
sym = @symbol(ERROR_FILE_NOT_FOUND);
typ = @symbol(nonexistentSignal);
break;
case ERROR_PATH_NOT_FOUND:
sym = @symbol(ERROR_PATH_NOT_FOUND);
typ = @symbol(nonexistentSignal);
break;
case ERROR_TOO_MANY_OPEN_FILES:
sym = @symbol(ERROR_TOO_MANY_OPEN_FILES);
typ = @symbol(noResourcesSignal);
break;
/*
* what a nice errorCode - thats the most "useful" one I ever
* encountered ... (... those stupid micro-softies ...)
*/
case ERROR_OPEN_FAILED:
sym = @symbol(ERROR_OPEN_FAILED);
typ = @symbol(noResourcesSignal);
break;
case ERROR_ACCESS_DENIED:
sym = @symbol(ERROR_ACCESS_DENIED);
typ = @symbol(noPermissionsSignal);
break;
case ERROR_INVALID_HANDLE:
sym = @symbol(ERROR_INVALID_HANDLE);
typ = @symbol(invalidArgumentsSignal);
break;
case ERROR_NOT_ENOUGH_MEMORY:
sym = @symbol(ERROR_NOT_ENOUGH_MEMORY);
typ = @symbol(noResourcesSignal);
break;
case ERROR_INVALID_ACCESS:
sym = @symbol(ERROR_INVALID_ACCESS);
typ = @symbol(inappropriateOperationSignal);
break;
case ERROR_INVALID_DATA:
sym = @symbol(ERROR_INVALID_DATA);
typ = @symbol(invalidArgumentsSignal);
break;
case ERROR_INVALID_NAME:
sym = @symbol(ERROR_INVALID_NAME);
typ = @symbol(invalidArgumentsSignal);
break;
case ERROR_ARENA_TRASHED:
sym = @symbol(ERROR_ARENA_TRASHED);
typ = @symbol(noResourcesSignal);
break;
case ERROR_OUTOFMEMORY:
sym = @symbol(ERROR_OUTOFMEMORY);
typ = @symbol(noResourcesSignal);
break;
case ERROR_BROKEN_PIPE:
sym = @symbol(ERROR_BROKEN_PIPE);
typ = @symbol(peerFaultSignal);
break;
case ERROR_GEN_FAILURE:
sym = @symbol(ERROR_GEN_FAILURE);
break;
case ERROR_WRITE_PROTECT:
sym = @symbol(ERROR_WRITE_PROTECT);
typ = @symbol(inappropriateOperationSignal);
break;
case ERROR_WRITE_FAULT:
sym = @symbol(ERROR_WRITE_FAULT);
typ = @symbol(transferFaultSignal);
break;
case ERROR_READ_FAULT:
sym = @symbol(ERROR_READ_FAULT);
typ = @symbol(transferFaultSignal);
break;
case ERROR_HANDLE_DISK_FULL:
sym = @symbol(ERROR_HANDLE_DISK_FULL);
typ = @symbol(volumeFullSignal);
break;
case ERROR_DISK_FULL:
sym = @symbol(ERROR_DISK_FULL);
typ = @symbol(volumeFullSignal);
break;
case ERROR_SHARING_VIOLATION:
sym = @symbol(ERROR_SHARING_VIOLATION);
typ = @symbol(noPermissionsSignal);
break;
case ERROR_LOCK_VIOLATION:
sym = @symbol(ERROR_LOCK_VIOLATION);
typ = @symbol(noPermissionsSignal);
break;
case ERROR_INVALID_PARAMETER:
sym = @symbol(ERROR_INVALID_PARAMETER);
typ = @symbol(invalidArgumentsSignal);
break;
case ERROR_NET_WRITE_FAULT:
sym = @symbol(ERROR_NET_WRITE_FAULT);
typ = @symbol(transferFaultSignal);
break;
case ERROR_NOT_SUPPORTED:
sym = @symbol(ERROR_NOT_SUPPORTED);
typ = @symbol(inappropriateOperationSignal);
break;
case ERROR_REM_NOT_LIST:
sym = @symbol(ERROR_REM_NOT_LIST);
typ = @symbol(noResourcesSignal);
break;
case ERROR_NETWORK_ACCESS_DENIED:
sym = @symbol(ERROR_NETWORK_ACCESS_DENIED);
typ = @symbol(noPermissionsSignal);
break;
case ERROR_DUP_NAME:
sym = @symbol(ERROR_DUP_NAME);
typ = @symbol(noResourcesSignal);
break;
case ERROR_BAD_NETPATH:
sym = @symbol(ERROR_BAD_NETPATH);
typ = @symbol(noResourcesSignal);
break;
case ERROR_NETWORK_BUSY:
sym = @symbol(ERROR_NETWORK_BUSY);
typ = @symbol(noResourcesSignal);
break;
case ERROR_DRIVE_LOCKED:
sym = @symbol(ERROR_DRIVE_LOCKED);
typ = @symbol(inappropriateOperationSignal);
break;
case ERROR_INVALID_DRIVE:
sym = @symbol(ERROR_INVALID_DRIVE);
typ = @symbol(invalidArgumentsSignal);
break;
case ERROR_WRONG_DISK:
sym = @symbol(ERROR_WRONG_DISK);
typ = @symbol(noResourcesSignal);
break;
case ERROR_CURRENT_DIRECTORY:
sym = @symbol(ERROR_CURRENT_DIRECTORY);
typ = @symbol(invalidArgumentsSignal);
break;
/*
* what a nice errorCode - thats the most "useful" one I ever
* encountered ... (... those stupid micro-softies ...)
*/
case ERROR_CANNOT_MAKE:
sym = @symbol(ERROR_CANNOT_MAKE);
typ = @symbol(inappropriateOperationSignal);
break;
case ERROR_NO_MORE_FILES:
sym = @symbol(ERROR_NO_MORE_FILES);
typ = @symbol(noResourcesSignal);
break;
case ERROR_NOT_READY:
sym = @symbol(ERROR_NOT_READY);
typ = @symbol(noResourcesSignal);
break;
case ERROR_NOT_DOS_DISK:
sym = @symbol(ERROR_NOT_DOS_DISK);
typ = @symbol(invalidArgumentsSignal);
break;
case ERROR_OUT_OF_PAPER:
sym = @symbol(ERROR_OUT_OF_PAPER);
typ = @symbol(noResourcesSignal);
break;
case ERROR_PRINTQ_FULL:
sym = @symbol(ERROR_PRINTQ_FULL);
typ = @symbol(noResourcesSignal);
break;
default:
sym = nil;
break;
}
} else {
switch (__eno) {
/*
* POSIX errnos - these should be defined
*/
#ifdef EPERM
case EPERM:
sym = @symbol(EPERM);
typ = @symbol(noPermissionsSignal);
break;
#endif
#ifdef ENOENT
case ENOENT:
sym = @symbol(ENOENT);
typ = @symbol(nonexistentSignal);
break;
#endif
#ifdef ESRCH
case ESRCH:
sym = @symbol(ESRCH);
typ = @symbol(unavailableReferentSignal);
break;
#endif
#ifdef EINTR
case EINTR:
sym = @symbol(EINTR);
typ = @symbol(transientErrorSignal);
break;
#endif
#ifdef EIO
case EIO:
sym = @symbol(EIO);
typ = @symbol(transferFaultSignal);
break;
#endif
#ifdef ENXIO
case ENXIO:
sym = @symbol(ENXIO);
typ = @symbol(unavailableReferentSignal);
break;
#endif
#ifdef E2BIG
case E2BIG:
sym = @symbol(E2BIG);
typ = @symbol(invalidArgumentsSignal);
break;
#endif
#ifdef ENOEXEC
case ENOEXEC:
sym = @symbol(ENOEXEC);
typ = @symbol(inappropriateOperationSignal);
break;
#endif
#ifdef EBADF
case EBADF:
sym = @symbol(EBADF);
typ = @symbol(badAccessorSignal);
break;
#endif
#ifdef ECHILD
case ECHILD:
sym = @symbol(ECHILD);
typ = @symbol(informationSignal);
break;
#endif
#if !defined(EWOULDBLOCK) && defined(EAGAIN) && (EWOULDBLOCK != EAGAIN)
case EAGAIN:
sym = @symbol(EAGAIN);
typ = @symbol(notReadySignal);
break;
#endif
#ifdef ENOMEM
case ENOMEM:
sym = @symbol(ENOMEM);
typ = @symbol(noMemorySignal);
break;
#endif
#ifdef EACCES
case EACCES:
sym = @symbol(EACCES);
typ = @symbol(noPermissionsSignal);
break;
#endif
#ifdef EFAULT
case EFAULT:
sym = @symbol(EFAULT);
typ = @symbol(invalidArgumentsSignal);
break;
#endif
#ifdef EBUSY
case EBUSY:
sym = @symbol(EBUSY);
typ = @symbol(unavailableReferentSignal);
break;
#endif
#ifdef EEXIST
case EEXIST:
sym = @symbol(EEXIST);
typ = @symbol(existingReferentSignal);
break;
#endif
#ifdef EXDEV
case EXDEV:
sym = @symbol(EXDEV);
typ = @symbol(inappropriateReferentSignal);
break;
#endif
#ifdef ENODEV
case ENODEV:
sym = @symbol(ENODEV);
typ = @symbol(inaccessibleSignal);
break;
#endif
#ifdef ENOTDIR
case ENOTDIR:
sym = @symbol(ENOTDIR);
typ = @symbol(inappropriateOperationSignal);
break;
#endif
#ifdef EISDIR
case EISDIR:
sym = @symbol(EISDIR);
typ = @symbol(inappropriateOperationSignal);
break;
#endif
#ifdef EINVAL
case EINVAL:
sym = @symbol(EINVAL);
typ = @symbol(invalidArgumentsSignal);
break;
#endif
#ifdef ENFILE
case ENFILE:
sym = @symbol(ENFILE);
typ = @symbol(noResourcesSignal);
break;
#endif
#ifdef EMFILE
case EMFILE:
sym = @symbol(EMFILE);
typ = @symbol(noResourcesSignal);
break;
#endif
#ifdef ENOTTY
case ENOTTY:
sym = @symbol(ENOTTY);
typ = @symbol(inappropriateOperationSignal);
break;
#endif
#ifdef EFBIG
case EFBIG:
sym = @symbol(EFBIG);
typ = @symbol(noResourcesSignal);
break;
#endif
#ifdef ENOSPC
case ENOSPC:
sym = @symbol(ENOSPC);
typ = @symbol(noResourcesSignal);
break;
#endif
#ifdef ESPIPE
case ESPIPE:
sym = @symbol(ESPIPE);
typ = @symbol(inappropriateOperationSignal);
break;
#endif
#ifdef EROFS
case EROFS:
sym = @symbol(EROFS);
typ = @symbol(inappropriateOperationSignal);
break;
#endif
#ifdef EMLINK
case EMLINK:
sym = @symbol(EMLINK);
typ = @symbol(rangeErrorSignal);
break;
#endif
#ifdef EPIPE
case EPIPE:
sym = @symbol(EPIPE);
typ = @symbol(peerFaultSignal);
break;
#endif
#ifdef EDOM
case EDOM:
sym = @symbol(EDOM);
typ = @symbol(rangeErrorSignal);
break;
#endif
#ifdef ERANGE
case ERANGE:
sym = @symbol(ERANGE);
typ = @symbol(rangeErrorSignal);
break;
#endif
#ifdef EDEADLK
# if EDEADLK != EWOULDBLOCK
case EDEADLK:
sym = @symbol(EDEADLK);
typ = @symbol(noResourcesSignal);
break;
# endif
#endif
#ifdef ENAMETOOLONG
case ENAMETOOLONG:
sym = @symbol(ENAMETOOLONG);
typ = @symbol(rangeErrorSignal);
break;
#endif
#ifdef ENOLCK
case ENOLCK:
sym = @symbol(ENOLCK);
typ = @symbol(inappropriateOperationSignal);
break;
#endif
#ifdef ENOSYS
case ENOSYS:
sym = @symbol(ENOSYS);
typ = @symbol(inappropriateOperationSignal);
break;
#endif
#if defined(ENOTEMPTY) && (ENOTEMPTY != EEXIST)
case ENOTEMPTY:
sym = @symbol(ENOTEMPTY);
typ = @symbol(inappropriateReferentSignal);
break;
#endif
#ifdef EILSEQ
case EILSEQ:
sym = @symbol(EILSEQ);
typ = @symbol(transferFaultSignal);
break;
#endif
/*
* XPG3 errnos - defined on most systems
*/
#ifdef ENOTBLK
case ENOTBLK:
sym = @symbol(ENOTBLK);
typ = @symbol(inappropriateReferentSignal);
break;
#endif
#ifdef ETXTBSY
case ETXTBSY:
sym = @symbol(ETXTBSY);
typ = @symbol(inaccessibleSignal);
break;
#endif
/*
* some others
*/
#ifdef EWOULDBLOCK
case EWOULDBLOCK:
sym = @symbol(EWOULDBLOCK);
typ = @symbol(notReadySignal);
break;
#endif
#ifdef ENOMSG
case ENOMSG:
sym = @symbol(ENOMSG);
typ = @symbol(noDataSignal);
break;
#endif
#ifdef ELOOP
case ELOOP:
sym = @symbol(ELOOP);
typ = @symbol(rangeErrorSignal);
break;
#endif
/*
* some stream errors
*/
#ifdef ETIME
case ETIME:
sym = @symbol(ETIME);
typ = @symbol(peerFaultSignal);
break;
#endif
#ifdef ENOSR
case ENOSR:
sym = @symbol(ENOSR);
typ = @symbol(noResourcesSignal);
break;
#endif
#ifdef ENOSTR
case ENOSTR:
sym = @symbol(ENOSTR);
typ = @symbol(inappropriateReferentSignal);
break;
#endif
#ifdef ECOMM
case ECOMM:
sym = @symbol(ECOMM);
typ = @symbol(transferFaultSignal);
break;
#endif
#ifdef EPROTO
case EPROTO:
sym = @symbol(EPROTO);
typ = @symbol(inappropriateOperationSignal);
break;
#endif
/*
* nfs errors
*/
#ifdef ESTALE
case ESTALE:
sym = @symbol(ESTALE);
typ = @symbol(unavailableReferentSignal);
break;
#endif
#ifdef EREMOTE
case EREMOTE:
sym = @symbol(EREMOTE);
typ = @symbol(rangeErrorSignal);
break;
#endif
/*
* some networking errors
*/
#ifdef EINPROGRESS
case EINPROGRESS:
sym = @symbol(EINPROGRESS);
typ = @symbol(operationStartedSignal);
break;
#endif
#ifdef EALREADY
case EALREADY:
sym = @symbol(EALREADY);
typ = @symbol(operationStartedSignal);
break;
#endif
#ifdef ENOTSOCK
case ENOTSOCK:
sym = @symbol(ENOTSOCK);
typ = @symbol(inappropriateOperationSignal);
break;
#endif
#ifdef EDESTADDRREQ
case EDESTADDRREQ:
sym = @symbol(EDESTADDRREQ);
typ = @symbol(underspecifiedSignal);
break;
#endif
#ifdef EMSGSIZE
case EMSGSIZE:
sym = @symbol(EMSGSIZE);
typ = @symbol(rangeErrorSignal);
break;
#endif
#ifdef EPROTOTYPE
case EPROTOTYPE:
sym = @symbol(EPROTOTYPE);
typ = @symbol(wrongSubtypeForOperationSignal);
break;
#endif
#ifdef ENOPROTOOPT
case ENOPROTOOPT:
sym = @symbol(ENOPROTOOPT);
typ = @symbol(unsupportedOperationSignal);
break;
#endif
#ifdef EPROTONOSUPPORT
case EPROTONOSUPPORT:
sym = @symbol(EPROTONOSUPPORT);
typ = @symbol(unsupportedOperationSignal);
break;
#endif
#ifdef ESOCKTNOSUPPORT
case ESOCKTNOSUPPORT:
sym = @symbol(ESOCKTNOSUPPORT);
typ = @symbol(unsupportedOperationSignal);
break;
#endif
#ifdef EOPNOTSUPP
case EOPNOTSUPP:
sym = @symbol(EOPNOTSUPP);
typ = @symbol(inappropriateOperationSignal);
break;
#endif
#ifdef EPFNOSUPPORT
case EPFNOSUPPORT:
sym = @symbol(EPFNOSUPPORT);
typ = @symbol(unsupportedOperationSignal);
break;
#endif
#ifdef EAFNOSUPPORT
case EAFNOSUPPORT:
sym = @symbol(EAFNOSUPPORT);
typ = @symbol(unsupportedOperationSignal);
break;
#endif
#ifdef EADDRINUSE
case EADDRINUSE:
sym = @symbol(EADDRINUSE);
typ = @symbol(existingReferentSignal);
break;
#endif
#ifdef EADDRNOTAVAIL
case EADDRNOTAVAIL:
sym = @symbol(EADDRNOTAVAIL);
typ = @symbol(noPermissionsSignal);
break;
#endif
#ifdef ETIMEDOUT
case ETIMEDOUT:
sym = @symbol(ETIMEDOUT);
typ = @symbol(peerFaultSignal);
break;
#endif
#ifdef ECONNREFUSED
case ECONNREFUSED:
sym = @symbol(ECONNREFUSED);
typ = @symbol(peerFaultSignal);
break;
#endif
#ifdef ENETDOWN
case ENETDOWN:
sym = @symbol(ENETDOWN);
typ = @symbol(peerFaultSignal);
break;
#endif
#ifdef ENETUNREACH
case ENETUNREACH:
sym = @symbol(ENETUNREACH);
typ = @symbol(peerFaultSignal);
break;
#endif
#ifdef ENETRESET
case ENETRESET:
sym = @symbol(ENETRESET);
typ = @symbol(peerFaultSignal);
break;
#endif
#ifdef ECONNABORTED
case ECONNABORTED:
sym = @symbol(ECONNABORTED);
typ = @symbol(peerFaultSignal);
break;
#endif
#ifdef ECONNRESET
case ECONNRESET:
sym = @symbol(ECONNRESET);
typ = @symbol(peerFaultSignal);
break;
#endif
#ifdef EISCONN
case EISCONN:
sym = @symbol(EISCONN);
typ = @symbol(unpreparedOperationSignal);
break;
#endif
#ifdef ENOTCONN
case ENOTCONN:
sym = @symbol(ENOTCONN);
typ = @symbol(unpreparedOperationSignal);
break;
#endif
#ifdef ESHUTDOWN
case ESHUTDOWN:
sym = @symbol(ESHUTDOWN);
typ = @symbol(unpreparedOperationSignal);
break;
#endif
#ifdef EHOSTDOWN
case EHOSTDOWN:
sym = @symbol(EHOSTDOWN);
typ = @symbol(peerFaultSignal);
break;
#endif
#ifdef EHOSTUNREACH
case EHOSTUNREACH:
sym = @symbol(EHOSTUNREACH);
typ = @symbol(peerFaultSignal);
break;
#endif
#ifdef WSAEFAULT
case WSAEFAULT:
sym = @symbol(WSAEFAULT);
typ = @symbol(invalidArgumentsSignal);
break;
#endif
#ifdef WSAEINTR
case WSAEINTR:
sym = @symbol(WSAEINTR);
typ = @symbol(transientErrorSignal);
break;
#endif
#ifdef WSAEBADF
case WSAEBADF:
sym = @symbol(WSAEBADF);
typ = @symbol(badAccessorSignal);
break;
#endif
#ifdef WSAEACCESS
case WSAEACCESS:
sym = @symbol(WSAEACCESS);
typ = @symbol(badAccessorSignal);
break;
#endif
#ifdef WSAEINVAL
case WSAEINVAL:
sym = @symbol(WSAEINVAL);
typ = @symbol(invalidArgumentsSignal);
break;
#endif
#ifdef WSAEMFILE
case WSAEMFILE:
sym = @symbol(WSAEMFILE);
typ = @symbol(noResourcesSignal);
break;
#endif
#ifdef WSAEWOULDBLOCK
case WSAEWOULDBLOCK:
sym = @symbol(WSAEWOULDBLOCK);
typ = @symbol(notReadySignal);
break;
#endif
#ifdef WSAEINPROGRESS
case WSAEINPROGRESS:
sym = @symbol(WSAEINPROGRESS);
typ = @symbol(operationStartedSignal);
break;
#endif
#ifdef WSAEALREADY
case WSAEALREADY:
sym = @symbol(WSAEALREADY);
typ = @symbol(operationStartedSignal);
break;
#endif
#ifdef WSAENOTSOCK
case WSAENOTSOCK:
sym = @symbol(WSAENOTSOCK);
typ = @symbol(inappropriateOperationSignal);
break;
#endif
#ifdef WSAEPROTONOSUPPORT
case WSAEPROTONOSUPPORT:
sym = @symbol(WSAEPROTONOSUPPORT);
typ = @symbol(unsupportedOperationSignal);
break;
#endif
#ifdef WSAESOCKTNOSUPPORT
case WSAESOCKTNOSUPPORT:
sym = @symbol(WSAESOCKTNOSUPPORT);
typ = @symbol(unsupportedOperationSignal);
break;
#endif
#ifdef E_NOINTERFACE
case E_NOINTERFACE:
sym = @symbol(E_NOINTERFACE);
typ = @symbol(noInterfaceSignal);
break;
#endif
#ifdef CO_E_NOTINITIALIZED
case CO_E_NOTINITIALIZED:
sym = @symbol(CO_E_NOTINITIALIZED);
typ = @symbol(coNotInitializedSignal);
break;
#endif
#ifdef REGDB_E_CLASSNOTREG
case REGDB_E_CLASSNOTREG:
sym = @symbol(REGDB_E_CLASSNOTREG);
typ = @symbol(classNotRegisteredSignal);
break;
#endif
#ifdef CLASS_E_NOAGGREGATION
case CLASS_E_NOAGGREGATION:
sym = @symbol(CLASS_E_NOAGGREGATION);
typ = @symbol(noAggregationSignal);
break;
#endif
#ifdef DISP_E_UNKNOWNNAME
case DISP_E_UNKNOWNNAME:
sym = @symbol(DISP_E_UNKNOWNNAME);
typ = @symbol(unknownNameSignal);
break;
#endif
#ifdef OLEOBJ_E_NOVERBS
case OLEOBJ_E_NOVERBS:
sym = @symbol(OLEOBJ_E_NOVERBS);
typ = @symbol(noVerbsSignal);
break;
#endif
default:
break;
}
}
}
%}.
holder := OSErrorHolder new.
holder errorSymbol:sym errorCategory:typ.
^ holder
"
OperatingSystem errorHolderForNumber:4
self errorHolderForNumber:(self errorNumberFor:#EPERM)
self errorHolderForNumber:(self errorNumberFor:#EIO)
self errorHolderForNumber:(self errorNumberFor:#ENXIO)
self errorHolderForNumber:(self errorNumberFor:#E_NOINTERFACE)
"
!
errorNumberFor:aSymbol
"given a symbolic error, return the numeric;
(i.e. errorNumberFor:#EBADF returns EBADF's value).
Use this, since error numbers are really not standard across unix systems."
%{ /* NOCONTEXT */
OBJ sym = aSymbol;
/*
* WIN32 GetLastError returns
*/
#ifdef ERROR_INVALID_FUNCTION
if (sym == @symbol(ERROR_INVALID_FUNCTION)) {
RETURN ( __mkSmallInteger(ERROR_INVALID_FUNCTION) );
}
#endif
#ifdef ERROR_BAD_FORMAT
if (sym == @symbol(ERROR_BAD_FORMAT)) {
RETURN ( __mkSmallInteger(ERROR_BAD_FORMAT) );
}
#endif
#ifdef ERROR_FILE_NOT_FOUND
if (sym == @symbol(ERROR_FILE_NOT_FOUND)) {
RETURN ( __mkSmallInteger(ERROR_FILE_NOT_FOUND) );
}
#endif
#ifdef ERROR_PATH_NOT_FOUND
if (sym == @symbol(ERROR_PATH_NOT_FOUND)) {
RETURN ( __mkSmallInteger(ERROR_PATH_NOT_FOUND) );
}
#endif
#ifdef ERROR_TOO_MANY_OPEN_FILES
if (sym == @symbol(ERROR_TOO_MANY_OPEN_FILES)) {
RETURN ( __mkSmallInteger(ERROR_TOO_MANY_OPEN_FILES) );
}
#endif
#ifdef ERROR_OPEN_FAILED
if (sym == @symbol(ERROR_OPEN_FAILED)) {
RETURN ( __mkSmallInteger(ERROR_OPEN_FAILED) );
}
#endif
#ifdef ERROR_ACCESS_DENIED
if (sym == @symbol(ERROR_ACCESS_DENIED)) {
RETURN ( __mkSmallInteger(ERROR_ACCESS_DENIED) );
}
#endif
#ifdef ERROR_INVALID_HANDLE
if (sym == @symbol(ERROR_INVALID_HANDLE)) {
RETURN ( __mkSmallInteger(ERROR_INVALID_HANDLE) );
}
#endif
#ifdef ERROR_NOT_ENOUGH_MEMORY
if (sym == @symbol(ERROR_NOT_ENOUGH_MEMORY)) {
RETURN ( __mkSmallInteger(ERROR_NOT_ENOUGH_MEMORY) );
}
#endif
#ifdef ERROR_INVALID_ACCESS
if (sym == @symbol(ERROR_INVALID_ACCESS)) {
RETURN ( __mkSmallInteger(ERROR_INVALID_ACCESS) );
}
#endif
#ifdef ERROR_INVALID_DATA
if (sym == @symbol(ERROR_INVALID_DATA)) {
RETURN ( __mkSmallInteger(ERROR_INVALID_DATA) );
}
#endif
#ifdef ERROR_INVALID_NAME
if (sym == @symbol(ERROR_INVALID_NAME)) {
RETURN ( __mkSmallInteger(ERROR_INVALID_NAME) );
}
#endif
#ifdef ERROR_ARENA_TRASHED
if (sym == @symbol(ERROR_ARENA_TRASHED)) {
RETURN ( __mkSmallInteger(ERROR_ARENA_TRASHED) );
}
#endif
#ifdef ERROR_OUTOFMEMORY
if (sym == @symbol(ERROR_OUTOFMEMORY)) {
RETURN ( __mkSmallInteger(ERROR_OUTOFMEMORY) );
}
#endif
#ifdef ERROR_BROKEN_PIPE
if (sym == @symbol(ERROR_BROKEN_PIPE)) {
RETURN ( __mkSmallInteger(ERROR_BROKEN_PIPE) );
}
#endif
#ifdef ERROR_GEN_FAILURE
if (sym == @symbol(ERROR_GEN_FAILURE)) {
RETURN ( __mkSmallInteger(ERROR_GEN_FAILURE) );
}
#endif
#ifdef ERROR_WRITE_PROTECT
if (sym == @symbol(ERROR_WRITE_PROTECT)) {
RETURN ( __mkSmallInteger(ERROR_WRITE_PROTECT) );
}
#endif
#ifdef ERROR_WRITE_FAULT
if (sym == @symbol(ERROR_WRITE_FAULT)) {
RETURN ( __mkSmallInteger(ERROR_WRITE_FAULT) );
}
#endif
#ifdef ERROR_READ_FAULT
if (sym == @symbol(ERROR_READ_FAULT)) {
RETURN ( __mkSmallInteger(ERROR_READ_FAULT) );
}
#endif
#ifdef ERROR_HANDLE_DISK_FULL
if (sym == @symbol(ERROR_HANDLE_DISK_FULL)) {
RETURN ( __mkSmallInteger(ERROR_HANDLE_DISK_FULL) );
}
#endif
#ifdef ERROR_DISK_FULL
if (sym == @symbol(ERROR_DISK_FULL)) {
RETURN ( __mkSmallInteger(ERROR_DISK_FULL) );
}
#endif
#ifdef ERROR_ERROR_SHARING_VIOLATION
if (sym == @symbol(ERROR_ERROR_SHARING_VIOLATION)) {
RETURN ( __mkSmallInteger(ERROR_ERROR_SHARING_VIOLATION) );
}
#endif
#ifdef ERROR_LOCK_VIOLATION
if (sym == @symbol(ERROR_LOCK_VIOLATION)) {
RETURN ( __mkSmallInteger(ERROR_LOCK_VIOLATION) );
}
#endif
#ifdef ERROR_INVALID_PARAMETER
if (sym == @symbol(ERROR_INVALID_PARAMETER)) {
RETURN ( __mkSmallInteger(ERROR_INVALID_PARAMETER) );
}
#endif
#ifdef ERROR_NET_WRITE_FAULT
if (sym == @symbol(ERROR_NET_WRITE_FAULT)) {
RETURN ( __mkSmallInteger(ERROR_NET_WRITE_FAULT) );
}
#endif
#ifdef ERROR_NOT_SUPPORTED
if (sym == @symbol(ERROR_NOT_SUPPORTED)) {
RETURN ( __mkSmallInteger(ERROR_NOT_SUPPORTED) );
}
#endif
#ifdef ERROR_REM_NOT_LIST
if (sym == @symbol(ERROR_REM_NOT_LIST)) {
RETURN ( __mkSmallInteger(ERROR_REM_NOT_LIST) );
}
#endif
#ifdef ERROR_NETWORK_ACCESS_DENIED
if (sym == @symbol(ERROR_NETWORK_ACCESS_DENIED)) {
RETURN ( __mkSmallInteger(ERROR_NETWORK_ACCESS_DENIED) );
}
#endif
#ifdef ERROR_DUP_NAME
if (sym == @symbol(ERROR_DUP_NAME)) {
RETURN ( __mkSmallInteger(ERROR_DUP_NAME) );
}
#endif
#ifdef ERROR_BAD_NETPATH
if (sym == @symbol(ERROR_BAD_NETPATH)) {
RETURN ( __mkSmallInteger(ERROR_BAD_NETPATH) );
}
#endif
#ifdef ERROR_NETWORK_BUSY
if (sym == @symbol(ERROR_NETWORK_BUSY)) {
RETURN ( __mkSmallInteger(ERROR_NETWORK_BUSY) );
}
#endif
#ifdef ERROR_DRIVE_LOCKED
if (sym == @symbol(ERROR_DRIVE_LOCKED)) {
RETURN ( __mkSmallInteger(ERROR_DRIVE_LOCKED) );
}
#endif
#ifdef ERROR_INVALID_DRIVE
if (sym == @symbol(ERROR_INVALID_DRIVE)) {
RETURN ( __mkSmallInteger(ERROR_INVALID_DRIVE) );
}
#endif
#ifdef ERROR_WRONG_DISK
if (sym == @symbol(ERROR_WRONG_DISK)) {
RETURN ( __mkSmallInteger(ERROR_WRONG_DISK) );
}
#endif
#ifdef ERROR_CURRENT_DIRECTORY
if (sym == @symbol(ERROR_CURRENT_DIRECTORY)) {
RETURN ( __mkSmallInteger(ERROR_CURRENT_DIRECTORY) );
}
#endif
#ifdef ERROR_CANNOT_MAKE
if (sym == @symbol(ERROR_CANNOT_MAKE)) {
RETURN ( __mkSmallInteger(ERROR_CANNOT_MAKE) );
}
#endif
#ifdef ERROR_NO_MORE_FILES
if (sym == @symbol(ERROR_NO_MORE_FILES)) {
RETURN ( __mkSmallInteger(ERROR_NO_MORE_FILES) );
}
#endif
#ifdef ERROR_NOT_READY
if (sym == @symbol(ERROR_NOT_READY)) {
RETURN ( __mkSmallInteger(ERROR_NOT_READY) );
}
#endif
#ifdef ERROR_NOT_DOS_DISK
if (sym == @symbol(ERROR_NOT_DOS_DISK)) {
RETURN ( __mkSmallInteger(ERROR_NOT_DOS_DISK) );
}
#endif
#ifdef ERROR_OUT_OF_PAPER
if (sym == @symbol(ERROR_OUT_OF_PAPER)) {
RETURN ( __mkSmallInteger(ERROR_OUT_OF_PAPER) );
}
#endif
#ifdef ERROR_PRINTQ_FULL
if (sym == @symbol(ERROR_PRINTQ_FULL)) {
RETURN ( __mkSmallInteger(ERROR_PRINTQ_FULL) );
}
#endif
/*
* POSIX errnos - these should be defined
*/
#ifdef EPERM
if (sym == @symbol(EPERM)) {
RETURN ( __mkSmallInteger(EPERM) );
}
#endif
#ifdef ENOENT
if (sym == @symbol(ENOENT)) {
RETURN ( __mkSmallInteger(ENOENT) );
}
#endif
#ifdef ESRCH
if (sym == @symbol(ESRCH)) {
RETURN ( __mkSmallInteger(ESRCH) );
}
#endif
#ifdef EINTR
if (sym == @symbol(EINTR)) {
RETURN ( __mkSmallInteger(EINTR) );
}
#endif
#ifdef EIO
if (sym == @symbol(EIO)) {
RETURN ( __mkSmallInteger(EIO) );
}
#endif
#ifdef ENXIO
if (sym == @symbol(ENXIO)) {
RETURN ( __mkSmallInteger(ENXIO) );
}
#endif
#ifdef E2BIG
if (sym == @symbol(E2BIG)) {
RETURN ( __mkSmallInteger(E2BIG) );
}
#endif
#ifdef ENOEXEC
if (sym == @symbol(ENOEXEC)) {
RETURN ( __mkSmallInteger(ENOEXEC) );
}
#endif
#ifdef EBADF
if (sym == @symbol(EBADF)) {
RETURN ( __mkSmallInteger(EBADF) );
}
#endif
#ifdef ECHILD
if (sym == @symbol(ECHILD)) {
RETURN ( __mkSmallInteger(ECHILD) );
}
#endif
#if defined(EAGAIN)
if (sym == @symbol(EAGAIN)) {
RETURN ( __mkSmallInteger(EAGAIN) );
}
#endif
#ifdef ENOMEM
if (sym == @symbol(ENOMEM)) {
RETURN ( __mkSmallInteger(ENOMEM) );
}
#endif
#ifdef EACCES
if (sym == @symbol(EACCES)) {
RETURN ( __mkSmallInteger(EACCES) );
}
#endif
#ifdef EFAULT
if (sym == @symbol(EFAULT)) {
RETURN ( __mkSmallInteger(EFAULT) );
}
#endif
#ifdef EBUSY
if (sym == @symbol(EBUSY)) {
RETURN ( __mkSmallInteger(EBUSY) );
}
#endif
#ifdef EXDEV
if (sym == @symbol(EXDEV)) {
RETURN ( __mkSmallInteger(EXDEV) );
}
#endif
#ifdef ENODEV
if (sym == @symbol(ENODEV)) {
RETURN ( __mkSmallInteger(ENODEV) );
}
#endif
#ifdef ENOTDIR
if (sym == @symbol(ENOTDIR)) {
RETURN ( __mkSmallInteger(ENOTDIR) );
}
#endif
#ifdef EISDIR
if (sym == @symbol(EISDIR)) {
RETURN ( __mkSmallInteger(EISDIR) );
}
#endif
#ifdef EINVAL
if (sym == @symbol(EINVAL)) {
RETURN ( __mkSmallInteger(EINVAL) );
}
#endif
#ifdef ENFILE
if (sym == @symbol(ENFILE)) {
RETURN ( __mkSmallInteger(ENFILE) );
}
#endif
#ifdef EMFILE
if (sym == @symbol(EMFILE)) {
RETURN ( __mkSmallInteger(EMFILE) );
}
#endif
#ifdef ENOTTY
if (sym == @symbol(ENOTTY)) {
RETURN ( __mkSmallInteger(ENOTTY) );
}
#endif
#ifdef EFBIG
if (sym == @symbol(EFBIG)) {
RETURN ( __mkSmallInteger(EFBIG) );
}
#endif
#ifdef ENOSPC
if (sym == @symbol(ENOSPC)) {
RETURN ( __mkSmallInteger(ENOSPC) );
}
#endif
#ifdef ESPIPE
if (sym == @symbol(ESPIPE)) {
RETURN ( __mkSmallInteger(ESPIPE) );
}
#endif
#ifdef EROFS
if (sym == @symbol(EROFS)) {
RETURN ( __mkSmallInteger(EROFS) );
}
#endif
#ifdef EMLINK
if (sym == @symbol(EMLINK)) {
RETURN ( __mkSmallInteger(EMLINK) );
}
#endif
#ifdef EPIPE
if (sym == @symbol(EPIPE)) {
RETURN ( __mkSmallInteger(EPIPE) );
}
#endif
#ifdef EDOM
if (sym == @symbol(EDOM)) {
RETURN ( __mkSmallInteger(EDOM) );
}
#endif
#ifdef ERANGE
if (sym == @symbol(ERANGE)) {
RETURN ( __mkSmallInteger(ERANGE) );
}
#endif
#ifdef EDEADLK
if (sym == @symbol(EDEADLK)) {
RETURN ( __mkSmallInteger(EDEADLK) );
}
#endif
#ifdef ENAMETOOLONG
if (sym == @symbol(ENAMETOOLONG)) {
RETURN ( __mkSmallInteger(ENAMETOOLONG) );
}
#endif
#ifdef ENOLCK
if (sym == @symbol(ENOLCK)) {
RETURN ( __mkSmallInteger(ENOLCK) );
}
#endif
#ifdef ENOSYS
if (sym == @symbol(ENOSYS)) {
RETURN ( __mkSmallInteger(ENOSYS) );
}
#endif
#ifdef ENOTEMPTY
if (sym == @symbol(ENOTEMPTY)) {
RETURN ( __mkSmallInteger(ENOTEMPTY) );
}
#endif
#ifdef EEXIST
if (sym == @symbol(EEXIST)) {
RETURN ( __mkSmallInteger(EEXIST) );
}
#endif
#ifdef EILSEQ
if (sym == @symbol(EILSEQ)) {
RETURN ( __mkSmallInteger(EILSEQ) );
}
#endif
/*
* XPG3 errnos - defined on most systems
*/
#ifdef ENOTBLK
if (sym == @symbol(ENOTBLK)) {
RETURN ( __mkSmallInteger(ENOTBLK) );
}
#endif
#ifdef ETXTBSY
if (sym == @symbol(ETXTBSY)) {
RETURN ( __mkSmallInteger(ETXTBSY) );
}
#endif
/*
* some others
*/
#ifdef EWOULDBLOCK
if (sym == @symbol(EWOULDBLOCK)) {
RETURN ( __mkSmallInteger(EWOULDBLOCK) );
}
#endif
#ifdef ENOMSG
if (sym == @symbol(ENOMSG)) {
RETURN ( __mkSmallInteger(ENOMSG) );
}
#endif
#ifdef ELOOP
if (sym == @symbol(ELOOP)) {
RETURN ( __mkSmallInteger(ELOOP) );
}
#endif
/*
* some stream errors
*/
#ifdef ETIME
if (sym == @symbol(ETIME)) {
RETURN ( __mkSmallInteger(ETIME) );
}
#endif
#ifdef ENOSR
if (sym == @symbol(ENOSR)) {
RETURN ( __mkSmallInteger(ENOSR) );
}
#endif
#ifdef ENOSTR
if (sym == @symbol(ENOSTR)) {
RETURN ( __mkSmallInteger(ENOSTR) );
}
#endif
#ifdef ECOMM
if (sym == @symbol(ECOMM)) {
RETURN ( __mkSmallInteger(ECOMM) );
}
#endif
#ifdef EPROTO
if (sym == @symbol(EPROTO)) {
RETURN ( __mkSmallInteger(EPROTO) );
}
#endif
/*
* nfs errors
*/
#ifdef ESTALE
if (sym == @symbol(ESTALE)) {
RETURN ( __mkSmallInteger(ESTALE) );
}
#endif
#ifdef EREMOTE
if (sym == @symbol(EREMOTE)) {
RETURN ( __mkSmallInteger(EREMOTE) );
}
#endif
/*
* some networking errors
*/
#ifdef EINPROGRESS
if (sym == @symbol(EINPROGRESS)) {
RETURN ( __mkSmallInteger(EINPROGRESS) );
}
#endif
#ifdef EALREADY
if (sym == @symbol(EALREADY)) {
RETURN ( __mkSmallInteger(EALREADY) );
}
#endif
#ifdef ENOTSOCK
if (sym == @symbol(ENOTSOCK)) {
RETURN ( __mkSmallInteger(ENOTSOCK) );
}
#endif
#ifdef EDESTADDRREQ
if (sym == @symbol(EDESTADDRREQ)) {
RETURN ( __mkSmallInteger(EDESTADDRREQ) );
}
#endif
#ifdef EMSGSIZE
if (sym == @symbol(EMSGSIZE)) {
RETURN ( __mkSmallInteger(EMSGSIZE) );
}
#endif
#ifdef EPROTOTYPE
if (sym == @symbol(EPROTOTYPE)) {
RETURN ( __mkSmallInteger(EPROTOTYPE) );
}
#endif
#ifdef ENOPROTOOPT
if (sym == @symbol(ENOPROTOOPT)) {
RETURN ( __mkSmallInteger(ENOPROTOOPT) );
}
#endif
#ifdef EPROTONOSUPPORT
if (sym == @symbol(EPROTONOSUPPORT)) {
RETURN ( __mkSmallInteger(EPROTONOSUPPORT) );
}
#endif
#ifdef ESOCKTNOSUPPORT
if (sym == @symbol(ESOCKTNOSUPPORT)) {
RETURN ( __mkSmallInteger(ESOCKTNOSUPPORT) );
}
#endif
#ifdef EOPNOTSUPP
if (sym == @symbol(EOPNOTSUPP)) {
RETURN ( __mkSmallInteger(EOPNOTSUPP) );
}
#endif
#ifdef EPFNOSUPPORT
if (sym == @symbol(EPFNOSUPPORT)) {
RETURN ( __mkSmallInteger(EPFNOSUPPORT) );
}
#endif
#ifdef EAFNOSUPPORT
if (sym == @symbol(EAFNOSUPPORT)) {
RETURN ( __mkSmallInteger(EAFNOSUPPORT) );
}
#endif
#ifdef EADDRINUSE
if (sym == @symbol(EADDRINUSE)) {
RETURN ( __mkSmallInteger(EADDRINUSE) );
}
#endif
#ifdef EADDRNOTAVAIL
if (sym == @symbol(EADDRNOTAVAIL)) {
RETURN ( __mkSmallInteger(EADDRNOTAVAIL) );
}
#endif
#ifdef ETIMEDOUT
if (sym == @symbol(ETIMEDOUT)) {
RETURN ( __mkSmallInteger(ETIMEDOUT) );
}
#endif
#ifdef ECONNREFUSED
if (sym == @symbol(ECONNREFUSED)) {
RETURN ( __mkSmallInteger(ECONNREFUSED) );
}
#endif
#ifdef ENETDOWN
if (sym == @symbol(ENETDOWN)) {
RETURN ( __mkSmallInteger(ENETDOWN) );
}
#endif
#ifdef ENETUNREACH
if (sym == @symbol(ENETUNREACH)) {
RETURN ( __mkSmallInteger(ENETUNREACH) );
}
#endif
#ifdef ENETRESET
if (sym == @symbol(ENETRESET)) {
RETURN ( __mkSmallInteger(ENETRESET) );
}
#endif
#ifdef ECONNABORTED
if (sym == @symbol(ECONNABORTED)) {
RETURN ( __mkSmallInteger(ECONNABORTED) );
}
#endif
#ifdef ECONNRESET
if (sym == @symbol(ECONNRESET)) {
RETURN ( __mkSmallInteger(ECONNRESET) );
}
#endif
#ifdef EISCONN
if (sym == @symbol(EISCONN)) {
RETURN ( __mkSmallInteger(EISCONN) );
}
#endif
#ifdef ENOTCONN
if (sym == @symbol(ENOTCONN)) {
RETURN ( __mkSmallInteger(ENOTCONN) );
}
#endif
#ifdef ESHUTDOWN
if (sym == @symbol(ESHUTDOWN)) {
RETURN ( __mkSmallInteger(ESHUTDOWN) );
}
#endif
#ifdef EHOSTDOWN
if (sym == @symbol(EHOSTDOWN)) {
RETURN ( __mkSmallInteger(EHOSTDOWN) );
}
#endif
#ifdef EHOSTUNREACH
if (sym == @symbol(EHOSTUNREACH)) {
RETURN ( __mkSmallInteger(EHOSTUNREACH) );
}
#endif
/*
* windows socket errors
*/
#ifdef WSAEINTR
if (sym == @symbol(WSAEINTR)) {
RETURN ( __mkSmallInteger(WSAEINTR) );
}
#endif
#ifdef WSAEBADF
if (sym == @symbol(WSAEBADF)) {
RETURN ( __mkSmallInteger(WSAEBADF) );
}
#endif
#ifdef WSAEACCESS
if (sym == @symbol(WSAEACCESS)) {
RETURN ( __mkSmallInteger(WSAEACCESS) );
}
#endif
#ifdef WSAEFAULT
if (sym == @symbol(WSAEFAULT)) {
RETURN ( __mkSmallInteger(WSAEFAULT) );
}
#endif
#ifdef WSAEINVAL
if (sym == @symbol(WSAEINVAL)) {
RETURN ( __mkSmallInteger(WSAEINVAL) );
}
#endif
#ifdef WSAEMFILE
if (sym == @symbol(WSAEMFILE)) {
RETURN ( __mkSmallInteger(WSAEMFILE) );
}
#endif
#ifdef WSAEWOULDBLOCK
if (sym == @symbol(WSAEWOULDBLOCK)) {
RETURN ( __mkSmallInteger(WSAEWOULDBLOCK) );
}
#endif
#ifdef WSAEINPROGRESS
if (sym == @symbol(WSAEINPROGRESS)) {
RETURN ( __mkSmallInteger(WSAEINPROGRESS) );
}
#endif
#ifdef WSAEALREADY
if (sym == @symbol(WSAEALREADY)) {
RETURN ( __mkSmallInteger(WSAEALREADY) );
}
#endif
#ifdef WSAENOTSOCK
if (sym == @symbol(WSAENOTSOCK)) {
RETURN ( __mkSmallInteger(WSAENOTSOCK) );
}
#endif
#ifdef WSAEPROTONOSUPPORT
if (sym == @symbol(WSAEPROTONOSUPPORT)) {
RETURN ( __mkSmallInteger(WSAEPROTONOSUPPORT) );
}
#endif
#ifdef WSAESOCKTNOSUPPORT
if (sym == @symbol(WSAESOCKTNOSUPPORT)) {
RETURN ( __mkSmallInteger(WSAESOCKTNOSUPPORT) );
}
#endif
#ifdef E_NOINTERFACE
if (sym == @symbol(E_NOINTERFACE)) {
RETURN ( __MKUINT(E_NOINTERFACE) );
}
#endif
#ifdef CO_E_NOTINITIALIZED
if (sym == @symbol(CO_E_NOTINITIALIZED)) {
RETURN ( __MKUINT(CO_E_NOTINITIALIZED) );
}
#endif
#ifdef REGDB_E_CLASSNOTREG
if (sym == @symbol(REGDB_E_CLASSNOTREG)) {
RETURN ( __MKUINT(REGDB_E_CLASSNOTREG) );
}
#endif
#ifdef CLASS_E_NOAGGREGATION
if (sym == @symbol(CLASS_E_NOAGGREGATION)) {
RETURN ( __MKUINT(CLASS_E_NOAGGREGATION) );
}
#endif
#ifdef DISP_E_UNKNOWNNAME
if (sym == @symbol(DISP_E_UNKNOWNNAME)) {
RETURN ( __MKUINT(DISP_E_UNKNOWNNAME) );
}
#endif
#ifdef OLEOBJ_E_NOVERBS
if (sym == @symbol(OLEOBJ_E_NOVERBS)) {
RETURN ( __MKUINT(OLEOBJ_E_NOVERBS) );
}
#endif
%}.
^ -1
! !
!Win32OperatingSystem class methodsFor:'executing OS commands'!
canExecuteCommand:aCommandString
"return true, if the OS can execute aCommand."
"/ |fn|
"/
"/ fn := aCommandString asFilename.
"/ ( #('com' 'exe') includes:fn suffix) ifFalse:[^ false].
^ super canExecuteCommand:aCommandString
"
OperatingSystem canExecuteCommand:'fooBar'
OperatingSystem canExecuteCommand:'ls'
OperatingSystem canExecuteCommand:'cvs'
OperatingSystem canExecuteCommand:'diff'
OperatingSystem canExecuteCommand:'cvs.exe'
OperatingSystem canExecuteCommand:'C:\Dokumente und Einstellungen\penk\work\stx\projects\smalltalk\cvs.exe'
OperatingSystem canExecuteCommand:'C:\Windows\cvs.exe'
OperatingSystem canExecuteCommand:'C:\Windows\system32\mspaint.exe'
"
"Created: 4.11.1995 / 19:13:54 / cg"
!
commandAndArgsForOSCommand:aCommandString
"get a shell and shell arguments for command execution"
|shell args wDir cmdName path hasRedirection|
"/
"/ 'x:\WINNT\System32\cmd /c <command>'
"/ or 'x:\WINDOWS\System32\cmd /c <command>'
"/ or 'x:\WINDOWS\System\cmd /c <command>'
"/ or whatever ...
"/
"/ to workaround a bug in win95's command.com
"/ (which always returns a 0-exit code
"/ - even if the command failed),
"/ Here, we see if the command is found along the path and
"/ call it directly if found.
"/ If not found, assume its a builtIn or batch command
"/ and pass it to command.com.
"/ Also use command.com, if any I/O redirection is
"/ involved, since that is (not yet) handled here.
"/
"/ I know: this is a kludge but should work for now...
"/ ...this will change in an upcoming version to include
"/ command.com command-line parsing here (sigh).
hasRedirection := (aCommandString isNil or:[aCommandString includesAny:'<>|']).
hasRedirection ifFalse:[
"/ test whether the commandString is an executable;
"/ then, no shell is required
cmdName := aCommandString withoutSeparators.
(cmdName notEmpty and:[(cmdName startsWith:$") not]) ifTrue:[
|index file suffix|
index := cmdName indexOfSeparatorStartingAt:1.
index ~~ 0 ifTrue:[
args := cmdName copyFrom:(index+1).
cmdName := cmdName copyFrom:1 to:(index-1).
] ifFalse:[
args := ''.
].
file := cmdName asFilename.
suffix := file suffix.
suffix isEmptyOrNil ifTrue:[
suffix := 'exe'.
file := file withSuffix:suffix.
].
(file exists and:[suffix = 'exe' or:[suffix = 'com']]) ifTrue:[
"/ is an executable, no shell required
path := file fullAlternativePathName.
^ Array with:path with:aCommandString.
"/ ^ Array with:path with:(path, ' ', args).
].
path := self pathOfCommand:cmdName.
path notNil ifTrue:[
"/ is an executable, no shell required
^ Array with:path with:aCommandString.
"/ ^ Array with:path with:(path, ' ', args).
].
].
].
shell := self getEnvironment:'COMSPEC'.
shell isNil ifTrue:[
wDir := self getWindowsSystemDirectory asFilename.
shell := #('cmd.exe' 'command.com') detect:[:eachCommand|
(wDir / eachCommand) isExecutable
] ifNone:[
self error:'no cmd.exe available'.
].
shell := (wDir / shell) pathName.
].
aCommandString isEmptyOrNil ifTrue:[
^ Array with:shell with:nil
].
^ Array with:shell with:(' /c "' , aCommandString, '"')
"
self commandAndArgsForOSCommand:'diff'
self commandAndArgsForOSCommand:'dir/w'
self commandAndArgsForOSCommand:'dir >nul:'
"
"Modified: / 20-01-1998 / 16:57:19 / md"
"Modified: / 11-02-2007 / 20:51:08 / cg"
!
exec:aCommandPath withArguments:argString environment:environment fileDescriptors:fdArray fork:doFork newPgrp:newPgrp inDirectory:aDirectory
"Internal lowLevel entry for combined fork & exec for WIN32
If fork is false (chain a command):
execute the OS command specified by the argument, aCommandPath, with
arguments in argArray (no arguments, if nil).
If successful, this method does not return and smalltalk is gone.
If not successful, it does return.
Normal use is with forkForCommand.
If fork is true (subprocess command execution):
fork a child to do the above.
The process id of the child process is returned; nil if the fork failed.
fdArray contains the filedescriptors, to be used for the child (if fork is true).
fdArray[1] = 15 -> use fd 15 as stdin.
If an element of the array is set to nil, the corresponding filedescriptor
will be closed for the child.
fdArray[0] == StdIn for child
fdArray[1] == StdOut for child
fdArray[2] == StdErr for child
on VMS, these must be channels as returned by createMailBox.
NOTE that in WIN32 the fds are HANDLES.
If newPgrp is true, the subprocess will be established in a new process group.
The processgroup will be equal to id.
newPgrp is not used on WIN32 and VMS systems."
|dirPath rslt|
aDirectory notNil ifTrue:[
dirPath := aDirectory asFilename asAbsoluteFilename osNameForDirectory.
(dirPath endsWith:':') ifTrue:[
dirPath := dirPath , '\'.
].
].
rslt := self
primExec:aCommandPath
commandLine:argString
fileDescriptors:fdArray
fork:doFork
newPgrp:newPgrp
inPath:dirPath
createFlags:nil.
"/ 'created ' print. cmdLine print. ' -> ' print. rslt printCR.
^ rslt
"Modified: / 31.1.1998 / 10:54:24 / md"
"Modified: / 15.5.1999 / 18:07:51 / cg"
!
exec:commandString withArguments:argString
inputFrom:anExternalInStream outputTo:anExternalOutStream
errorTo:anExternalErrStream auxFrom:anAuxiliaryStream
environment:anEvironmentDictionary inDirectory:dir
"start executing the OS command as specified by the argument, aCommandString
as a separate process; do not wait for the command to finish.
The commandString is passed to a shell for execution - see the description of
'sh -c' in your UNIX manual ('cmd.com' in your MSDOS manual).
The command gets stdIn, stdOut and stdErr assigned from the arguments;
each may be nil.
Return the processId if successful, nil otherwise.
Use #monitorPid:action: for synchronization and exec status return,
or #killProcess: to stop it."
|nullStream in out err rslt auxFd|
(in := anExternalInStream) isNil ifTrue:[
nullStream := Filename nullDevice readWriteStream.
in := nullStream.
].
(out := anExternalOutStream) isNil ifTrue:[
nullStream isNil ifTrue:[nullStream := Filename nullDevice writeStream].
out := nullStream.
].
(err := anExternalErrStream) isNil ifTrue:[
err := out
].
anAuxiliaryStream notNil ifTrue:[
auxFd := anAuxiliaryStream fileDescriptor
].
rslt := self
exec:commandString
withArguments:argString
environment:anEvironmentDictionary
fileDescriptors:(Array with:in fileDescriptor
with:out fileDescriptor
with:err fileDescriptor
with:auxFd)
fork:true
newPgrp:true "/ false
inDirectory:dir.
nullStream notNil ifTrue:[
nullStream close.
].
^ rslt
"blocking at current prio (i.e. only higher prio threads execute):
OperatingSystem executeCommand:'ls -l > out'.
"
"non-blocking (lower prio threads continue):
|in out err pid sema|
in := 'out' asFilename readStream.
out := 'out2' asFilename writeStream.
err := 'err' asFilename writeStream.
sema := Semaphore new.
pid := OperatingSystem startProcess:'sleep 10; grep drw' inputFrom:in outputTo:out errorTo:err.
The following will no longer work. monitorPid has disappeared
pid notNil ifTrue:[
Processor monitorPid:pid action:[:OSstatus | sema signal ].
].
in close.
out close.
err close.
sema wait.
Transcript showCR:'finished'
"
"Modified: / 21-03-1997 / 10:04:35 / dq"
"Modified: / 15-07-1997 / 16:03:51 / stefan"
"Created: / 12-11-1998 / 14:39:20 / cg"
"Modified: / 11-02-2007 / 20:13:28 / cg"
!
getStatusOfProcess:aProcessId
"wait for a process to terminate and fetch its exit status.
This is required to avoid zombie processes."
%{
DWORD endStatus;
int status = -1;
if (__isExternalAddressLike(aProcessId)) {
HANDLE handle = _HANDLEVal(aProcessId);
if (handle) {
#ifdef DO_WRAP_CALLS
do {
__threadErrno = 0;
endStatus = STX_API_CALL2( "WaitForSingleObject", WaitForSingleObject, handle, INFINITE);
} while ((endStatus < 0) && (__threadErrno == EINTR));
#else
endStatus = WaitForSingleObject(handle , INFINITE);
#endif
if (endStatus != WAIT_FAILED) {
if (GetExitCodeProcess(handle,&endStatus)) {
status = endStatus;
#ifdef PROCESSDEBUGWIN32
console_fprintf(stderr, "getexitcode status = %d\n",status);
} else {
console_fprintf(stderr, "getexitcode failed.\n");
#endif
}
}
}
RETURN ( __mkSmallInteger(status));
}
%}.
self primitiveFailed
!
pathOfCommand:aCommand
"find where aCommand's executable file is;
return its full pathName if there is such a command, otherwise
return nil."
|path f fExt|
aCommand asFilename isAbsolute ifTrue:[
aCommand asFilename exists ifTrue:[
^ aCommand
].
^ nil
].
(aCommand includes:Filename separator) ifTrue:[
path := Filename currentDirectory construct:aCommand.
(path exists
or:[(path withSuffix:'exe') exists]) ifTrue:[
^ path pathName
].
].
path := self getEnvironment:'PATH'.
path notNil ifTrue:[
(path asCollectionOfSubstringsSeparatedBy:(self pathSeparator)) do:[:path |
path isEmpty ifTrue:[
f := aCommand asFilename
] ifFalse:[
f := path asFilename construct:aCommand.
].
f suffix isEmpty ifTrue:[
self executableFileExtensions do:[:ext |
ext notEmpty ifTrue:[
fExt := (f pathName , '.' , ext) asFilename.
] ifFalse:[
fExt := f.
].
fExt isExecutable ifTrue:[
^ fExt pathName
].
].
] ifFalse:[
f isExecutable ifTrue:[
^ f pathName
].
].
].
].
^ nil
"windows:
OperatingSystem pathOfCommand:'bcc32'
OperatingSystem pathOfCommand:'diff'
OperatingSystem pathOfCommand:'cvs'
OperatingSystem pathOfCommand:'cvs.exe'
"
"Modified: / 10.9.1998 / 17:51:49 / cg"
!
primExec:commandPath commandLine:commandLine fileDescriptors:fdArray fork:doFork newPgrp:newPgrp inPath:dirName createFlags:flagsOrNil
"Internal lowLevel entry for combined fork & exec for WIN32"
|handle|
handle := Win32ProcessHandle new.
%{
/*
* if fork is false, chain to another command (not yet supported)
* otherwise, spawn a subprocess and let it execute the command.
* Currently, only the forking version is supported (who chains anyway ?)
*/
char *cmdPath = 0;
char *cmdLine = 0;
char *dir = 0;
DWORD fdwCreate = 0;
STARTUPINFO lpsiStartInfo;
PROCESS_INFORMATION lppiProcInfo;
SECURITY_ATTRIBUTES sa;
SECURITY_DESCRIPTOR sd;
if ((__isStringLike(commandPath) || (commandPath == nil)) && __isStringLike(commandLine)) {
if (commandPath != nil) {
cmdPath = __stringVal(commandPath);
}
cmdLine = __stringVal(commandLine);
if (__isStringLike(dirName)) {
dir = __stringVal(dirName);
}
/*
* create descriptors as req'd
*/
memset(&sa, 0, sizeof (sa));
sa.nLength = sizeof( sa );
sa.lpSecurityDescriptor = NULL;
sa.bInheritHandle = TRUE;
InitializeSecurityDescriptor(&sd, SECURITY_DESCRIPTOR_REVISION);
SetSecurityDescriptorDacl(&sd, -1, 0, 0);
sa.lpSecurityDescriptor = &sd;
memset(&lppiProcInfo, 0, sizeof (lppiProcInfo));
memset(&lpsiStartInfo, 0, sizeof (lpsiStartInfo));
lpsiStartInfo.cb = sizeof(lpsiStartInfo);
lpsiStartInfo.lpReserved = NULL;
lpsiStartInfo.lpDesktop = NULL;
lpsiStartInfo.lpTitle = NULL;
lpsiStartInfo.dwX = 0;
lpsiStartInfo.dwY = 0;
lpsiStartInfo.dwXSize = 100;
lpsiStartInfo.dwYSize = 100;
lpsiStartInfo.dwXCountChars = 0;
lpsiStartInfo.dwYCountChars = 0;
lpsiStartInfo.dwFillAttribute = 0;
if (0 /*__isWinNT*/) {
lpsiStartInfo.dwFlags = STARTF_USESTDHANDLES;
lpsiStartInfo.wShowWindow = SW_SHOWDEFAULT;
} else {
lpsiStartInfo.dwFlags = STARTF_USESHOWWINDOW | STARTF_USESTDHANDLES /*| STARTF_USEPOSITION*/;
lpsiStartInfo.wShowWindow = SW_HIDE /*SW_SHOWDEFAULT*/;
}
lpsiStartInfo.cbReserved2 = 0;
lpsiStartInfo.lpReserved2 = NULL;
lpsiStartInfo.hStdInput = NULL;
lpsiStartInfo.hStdOutput = NULL;
lpsiStartInfo.hStdError = NULL;
/*
* set create process flags
* if the flags arg is nil, use common defaults;
* if non-nil, it must be a positive integer containing the fdwCreate bits.
*/
if (flagsOrNil != nil) {
fdwCreate = __longIntVal(flagsOrNil);
} else {
if (0 /* __isWinNT */)
fdwCreate = 0; //IDLE_PRIORITY_CLASS;
else
fdwCreate = CREATE_NEW_CONSOLE; //|IDLE_PRIORITY_CLASS; // DETACHED_PROCESS; // NORMAL_PRIORITY_CLASS ;
if (newPgrp == true) {
fdwCreate |= CREATE_NEW_PROCESS_GROUP;
}
fdwCreate |= CREATE_DEFAULT_ERROR_MODE;
}
if (fdArray == nil) {
lpsiStartInfo.hStdInput = (HANDLE) _get_osfhandle (0);
lpsiStartInfo.hStdOutput = (HANDLE) _get_osfhandle (1);
lpsiStartInfo.hStdError = (HANDLE) _get_osfhandle (2);
} else if (__isArrayLike(fdArray) && (__arraySize(fdArray) >= 3)) {
if (__ArrayInstPtr(fdArray)->a_element[0] != nil) {
if (__isExternalAddressLike(__ArrayInstPtr(fdArray)->a_element[0])) {
lpsiStartInfo.hStdInput = _HANDLEVal(__ArrayInstPtr(fdArray)->a_element[0]);
} else {
lpsiStartInfo.hStdInput = (HANDLE) _get_osfhandle (__intVal(__ArrayInstPtr(fdArray)->a_element[0]));
}
}
if (__ArrayInstPtr(fdArray)->a_element[1] != nil) {
if (__isExternalAddressLike(__ArrayInstPtr(fdArray)->a_element[1])) {
lpsiStartInfo.hStdOutput = _HANDLEVal(__ArrayInstPtr(fdArray)->a_element[1]);
} else {
lpsiStartInfo.hStdOutput = (HANDLE) _get_osfhandle (__intVal(__ArrayInstPtr(fdArray)->a_element[1]));
}
}
if (__ArrayInstPtr(fdArray)->a_element[2] != nil) {
if (__isExternalAddressLike(__ArrayInstPtr(fdArray)->a_element[2])) {
lpsiStartInfo.hStdError = _HANDLEVal(__ArrayInstPtr(fdArray)->a_element[2]);
} else {
lpsiStartInfo.hStdError = (HANDLE) _get_osfhandle (__intVal(__ArrayInstPtr(fdArray)->a_element[2]));
}
}
#if defined(PROCESSDEBUGWIN32)
console_fprintf(stderr, "stdin %x\n", lpsiStartInfo.hStdInput);
console_fprintf(stderr, "stdout %x\n",lpsiStartInfo.hStdOutput);
console_fprintf(stderr, "stderr %x\n",lpsiStartInfo.hStdError);
#endif
} else {
console_fprintf(stderr, "Win32OS [warning]: bad fd arg in createProcess\n");
}
if (doFork == true) {
#ifdef PROCESSDEBUGWIN32
console_fprintf(stderr, "create process cmdPath:<%s> cmdLine:<%s> in <%s>\n", cmdPath, cmdLine, dir);
#endif
if (CreateProcess( cmdPath,
cmdLine,
&sa, NULL /* &sa */, /* sec-attribs */
sa.bInheritHandle, /* inherit handles */
fdwCreate,
NULL, /* env */
dir,
&lpsiStartInfo,
&lppiProcInfo ))
{
CloseHandle(lppiProcInfo.hThread);
#ifdef PROCESSDEBUGWIN32
console_fprintf(stderr, "created process hProcess=%x\n", lppiProcInfo.hProcess);
#endif
__externalAddressVal(handle) = lppiProcInfo.hProcess;
((struct __Win32OperatingSystem__Win32ProcessHandle_struct *)(handle))->pid = __mkSmallInteger(lppiProcInfo.dwProcessId);
RETURN (handle);
}
#ifdef PROCESSDEBUGWIN32
console_fprintf(stderr, "created process error %d\n", GetLastError());
#endif
RETURN (nil);
} else {
; /* should never be called that way */
}
}
%}.
"
path-argument not string
or argArray not an array/nil
or malloc failed
or not supported by OS
"
^ self primitiveFailed
!
startProcess:aCommandString inputFrom:anExternalInStream outputTo:anExternalOutStream
errorTo:anExternalErrStream auxFrom:anAuxiliaryStream
environment:anEvironmentDictionary inDirectory:dir
"start executing the OS command as specified by the argument, aCommandString
as a separate process; do not wait for the command to finish.
The commandString is passed to a shell for execution - see the description of
'sh -c' in your UNIX manual ('cmd.com' in your MSDOS manual).
The command gets stdIn, stdOut and stdErr assigned from the arguments;
each may be nil.
Return the processId if successful, nil otherwise.
Use #monitorPid:action: for synchronization and exec status return,
or #killProcess: to stop it."
|shellAndArgs|
aCommandString isNil ifTrue:[^ nil].
shellAndArgs := self commandAndArgsForOSCommand:aCommandString.
^ self
exec:(shellAndArgs at:1) withArguments:(shellAndArgs at:2)
inputFrom:anExternalInStream outputTo:anExternalOutStream
errorTo:anExternalErrStream auxFrom:anAuxiliaryStream
environment:anEvironmentDictionary inDirectory:dir
"blocking at current prio (i.e. only higher prio threads execute):
OperatingSystem executeCommand:'ls -l > out'.
"
"non-blocking (lower prio threads continue):
|in out err pid sema|
in := 'out' asFilename readStream.
out := 'out2' asFilename writeStream.
err := 'err' asFilename writeStream.
sema := Semaphore new.
pid := OperatingSystem startProcess:'sleep 10; grep drw' inputFrom:in outputTo:out errorTo:err.
The following will no longer work. monitorPid has disappeared
pid notNil ifTrue:[
Processor monitorPid:pid action:[:OSstatus | sema signal ].
].
in close.
out close.
err close.
sema wait.
Transcript showCR:'finished'
"
"Modified: / 21-03-1997 / 10:04:35 / dq"
"Modified: / 15-07-1997 / 16:03:51 / stefan"
"Created: / 12-11-1998 / 14:39:20 / cg"
"Modified: / 11-02-2007 / 20:13:28 / cg"
! !
!Win32OperatingSystem class methodsFor:'file access'!
closeFd:anIntegerOrHandle
"low level close of a filedescriptor"
%{
if (__isSmallInteger(anIntegerOrHandle)) {
close(__intVal(anIntegerOrHandle));
RETURN(self);
}
if (__isExternalAddressLike(anIntegerOrHandle)) {
if (!CloseHandle( __externalAddressVal(anIntegerOrHandle))) {
console_fprintf( stderr, "Win32OS [warning]: Could not close handle : %x\n", __externalAddressVal(anIntegerOrHandle));
}
RETURN(self);
}
%}.
^ self primitiveFailed.
!
createDirectory:aPathName
"create a new directory with name 'aPathName', which may be an absolute
path, or relative to the current directory.
Return true if successful (or the directory existed already), false if failed.
This is a low-level entry - use Filename protocol for compatibility."
"/ if it already exists this is ok
(self isDirectory:aPathName) ifTrue:[^ true].
%{
if (__isStringLike(aPathName)) {
int ret;
SECURITY_ATTRIBUTES sa;
sa.nLength = sizeof( sa );
sa.lpSecurityDescriptor = NULL;
sa.bInheritHandle = TRUE;
ret = CreateDirectoryA(__stringVal(aPathName), &sa);
if (ret != TRUE) {
__threadErrno = __WIN32_ERR(GetLastError());
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
RETURN (false);
}
RETURN (true);
}
if (__isUnicode16String(aPathName)) {
int ret;
SECURITY_ATTRIBUTES sa;
wchar_t _wPathName[MAXPATHLEN+1];
int i, l;
l = __unicode16StringSize(aPathName);
if (l > MAXPATHLEN) l = MAXPATHLEN;
for (i=0; i<l; i++) {
_wPathName[i] = __unicode16StringVal(aPathName)[i];
}
_wPathName[i] = 0;
sa.nLength = sizeof( sa );
sa.lpSecurityDescriptor = NULL;
sa.bInheritHandle = TRUE;
ret = CreateDirectoryW(_wPathName, &sa);
if (ret != TRUE) {
__threadErrno = __WIN32_ERR(GetLastError());
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
RETURN (false);
}
RETURN (true);
}
%}.
^ self primitiveFailed
"
OperatingSystem createDirectory:'foo'
"
"Modified: 20.12.1995 / 11:24:13 / stefan"
"Modified: 29.6.1996 / 14:06:54 / cg"
!
createFileForReadAppend:pathName
^ self openFile:pathName attributes:#(#'GENERIC_READ' #'GENERIC_WRITE')
!
createFileForReadWrite:pathName
^ self openFile:pathName attributes:#(#'GENERIC_READ' #'GENERIC_WRITE' #'CREATE_ALWAYS')
!
getLastError
%{
RETURN ( __mkSmallInteger( __WIN32_ERR(GetLastError()) ));
%}.
"Created: / 31-07-2006 / 12:40:39 / fm"
!
getLinkTarget:aPathName
"given a filename, which represents a link-file (.lnk),
return its resolved path, or nil"
|resolvedPath|
%{ /* STACK:100000 */
static IShellLink * ipShellLink = NULL;
static IPersistFile * ipPersistFile = NULL;
HRESULT hres;
WIN32_FIND_DATA wfd;
WORD wsz[MAX_PATH];
char szGotPath[MAX_PATH];
if (! __isStringLike(aPathName)) {
console_fprintf(stderr, "OperatingSystem [info]: invalid argument\n");
goto error;
}
if( ! coInitialized ) {
console_fprintf(stderr, "OperatingSystem [info]: com not initialized\n");
goto error;
}
if ( ipShellLink == NULL ) {
hres = CoCreateInstance(&CLSID_ShellLink, NULL, CLSCTX_INPROC_SERVER,
&IID_IShellLink, (LPVOID *)&ipShellLink);
if (! SUCCEEDED(hres)) {
console_fprintf(stderr, "OperatingSystem [info]: CoCreateInstance Error - hres = %08x\n", hres);
ipShellLink = NULL;
goto error;
}
hres = ipShellLink->lpVtbl->QueryInterface( ipShellLink, &IID_IPersistFile, & ipPersistFile );
if (! SUCCEEDED(hres)) {
console_fprintf(stderr, "OperatingSystem [info]: QueryInterface Error - hres = %08x\n", hres);
ipShellLink->lpVtbl->Release(ipShellLink);
ipShellLink = NULL;
ipPersistFile = NULL;
goto error;
}
}
MultiByteToWideChar(CP_ACP, 0, __stringVal(aPathName), -1, wsz, MAX_PATH);
hres = ipPersistFile->lpVtbl->Load(ipPersistFile, wsz, STGM_READ);
if (SUCCEEDED(hres)) {
hres = ipShellLink->lpVtbl->GetPath(ipShellLink, szGotPath, MAX_PATH,
(WIN32_FIND_DATA *)&wfd, 0 /* SLGP_SHORTPATH */ );
if (SUCCEEDED(hres)) {
resolvedPath = __MKSTRING(szGotPath);
} else {
#ifdef COM_DEBUG
console_fprintf(stderr, "OperatingSystem [info]: GetPath failed - hres = %08x\n", hres );
#endif
}
} else {
#ifdef COM_DEBUG
console_fprintf(stderr, "OperatingSystem [info]: Load failed - hres = %08x\n", hres );
#endif
}
/* ipPersistFile->lpVtbl->Release(ipPersistFile); */
error: ;
%}.
resolvedPath notNil ifTrue:[^ resolvedPath ].
"/ self primitiveFailed.
^ nil.
"
OperatingSystem getLinkTarget:'C:\Dokumente und Einstellungen\cg\Favoriten\Incoming.lnk'
OperatingSystem getLinkTarget:'C:\Dokumente und Einstellungen\cg\Favoriten\cg auf G5.lnk'
"
"Created: / 07-11-2006 / 10:52:44 / cg"
"Modified: / 07-02-2007 / 10:37:48 / cg"
!
linkFile:oldPath to:newPath
"link the file 'oldPath' to 'newPath'. The link will be a hard link.
Return true if successful, false if not."
(oldPath isString not or:[newPath isString not]) ifTrue:[
"/
"/ bad argument(s) given
"/
^ self primitiveFailed
].
"/
"/ this OperatingSystem does not support links
"/
^ UnsupportedOperationSignal raise
"
OperatingSystem linkFile:'foo' to:'bar'
"
!
openFile:pathName attributes:attributeSpec
"non public internal helper.
open a file, return an os specific fileHandle.
attributes is a collection of symbols specifying how the file is
to be opened."
|fileHandle errorNumber argumentError|
fileHandle := Win32Handle new.
%{
HANDLE h;
char *name;
wchar_t _wPathName[MAXPATHLEN+1];
OBJ *ap;
int numAttrib;
int i, l;
DWORD access, share, create, attr;
if (__isStringLike(pathName)) {
name = __stringVal(pathName);
} else if (__isUnicode16String(pathName)) {
l = __unicode16StringSize(pathName);
if (l > MAXPATHLEN) l = MAXPATHLEN;
for (i=0; i<l; i++) {
_wPathName[i] = __unicode16StringVal(pathName)[i];
}
_wPathName[i] = 0;
} else {
fileHandle = nil;
argumentError = @symbol(badPathName);
goto badArgument;
}
if (! __isArrayLike(attributeSpec)) {
fileHandle = nil;
argumentError = @symbol(badAttributeSpec);
goto badArgument;
}
ap = __ArrayInstPtr(attributeSpec)->a_element;
numAttrib = __arraySize(attributeSpec);
share = 0;
access = 0;
create = 0;
attr = 0;
for (i=0; i<numAttrib;i++) {
OBJ attrSym = ap[i];
if (attrSym == @symbol(FILE_SHARE_READ)) {
share |= FILE_SHARE_READ;
} else if (attrSym == @symbol(FILE_SHARE_WRITE)) {
share |= FILE_SHARE_WRITE;
} else if (attrSym == @symbol(GENERIC_READ)) {
access |= GENERIC_READ;
} else if (attrSym == @symbol(GENERIC_WRITE)) {
access |= GENERIC_WRITE;
} else if (attrSym == @symbol(CREATE_NEW)) {
create |= CREATE_NEW;
} else if (attrSym == @symbol(CREATE_ALWAYS)) {
create |= CREATE_ALWAYS;
} else if (attrSym == @symbol(OPEN_EXISTING)) {
create |= OPEN_EXISTING;
} else if (attrSym == @symbol(OPEN_ALWAYS)) {
create |= OPEN_ALWAYS;
} else if (attrSym == @symbol(TRUNCATE_EXISTING)) {
create |= TRUNCATE_EXISTING;
} else if (attrSym == @symbol(FILE_ATTRIBUTE_HIDDEN)) {
attr |= FILE_ATTRIBUTE_HIDDEN;
} else if (attrSym == @symbol(FILE_ATTRIBUTE_READONLY)) {
attr |= FILE_ATTRIBUTE_READONLY;
} else if (attrSym == @symbol(FILE_ATTRIBUTE_READONLY)) {
attr |= FILE_ATTRIBUTE_READONLY;
} else if (attrSym == @symbol(FILE_FLAG_WRITE_THROUGH)) {
attr |= FILE_FLAG_WRITE_THROUGH;
} else if (attrSym == @symbol(FILE_FLAG_SEQUENTIAL_SCAN)) {
attr |= FILE_FLAG_SEQUENTIAL_SCAN;
} else if (attrSym == @symbol(FILE_FLAG_DELETE_ON_CLOSE)) {
attr |= FILE_FLAG_DELETE_ON_CLOSE;
} else {
console_fprintf(stderr, "Win32OS [warning]: unsupported open mode\n");
}
}
if (create == 0) {
fileHandle = nil;
argumentError = @symbol(missingCreateMode);
goto badArgument;
}
#ifdef PROCESSDEBUGWIN32
console_fprintf(stderr, "name:<%s> access:%x share:%x create:%x attr:%x\n",
name, access, share, create, attr);
#endif
if (__isStringLike(pathName)) {
h = CreateFileA(name, access, share, 0 /* sa */, create, attr, 0 /* hTempl */);
} else {
h = CreateFileW(_wPathName, access, share, 0 /* sa */, create, attr, 0 /* hTempl */);
}
if (h != INVALID_HANDLE_VALUE) {
__externalAddressVal(fileHandle) = (void *)h;
} else {
fileHandle = nil;
errorNumber = __mkSmallInteger( __WIN32_ERR(GetLastError()) );
}
badArgument: ;
%}.
fileHandle notNil ifTrue:[
fileHandle registerForFinalization.
^ fileHandle.
].
errorNumber isNil ifTrue:[
self error:'invalid argument(s): ', argumentError.
] ifFalse:[
(self errorHolderForNumber:errorNumber) reportError
].
!
openFileForAppend:pathName
"noone sends this message yet"
^ self shouldImplement
!
openFileForRead:pathName
^ self openFile:pathName attributes:#(#'GENERIC_READ' #'OPEN_EXISTING')
!
openFileForReadAppend:pathName
"noone sends this message yet"
^ self shouldImplement
!
openFileForReadWrite:pathName
^ self openFile:pathName attributes:#(#'GENERIC_READ' #'GENERIC_WRITE')
!
openFileForWrite:pathName
^ self openFile:pathName attributes:#(#'GENERIC_WRITE' #'OPEN_EXISTING')
!
recursiveCopyDirectory:sourcePathName to:destination
"copy the directory named 'sourcePathName' and all contained files/directories to 'destination'.
Return true if successful."
^ false
"Modified: / 4.6.1998 / 04:29:49 / cg"
!
removeDirectory:fullPathName
"remove the directory named 'fullPathName'.
The directory must be empty and you must have appropriate access rights.
Return true if successful, false if directory is not empty or no permission.
This is a lowLevel entry - use Filename protocol for compatibility."
%{
int ret;
if (__isStringLike(fullPathName)) {
#ifdef DO_WRAP_CALLS
{
char _aPathName[MAXPATHLEN];
strncpy(_aPathName, __stringVal(fullPathName), MAXPATHLEN-1); _aPathName[MAXPATHLEN-1] = '\0';
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL1( "RemoveDirectoryA", RemoveDirectoryA, _aPathName);
} while ((ret < 0) && (__threadErrno == EINTR));
}
#else
ret = RemoveDirectoryA((char *)__stringVal(fullPathName));
__threadErrno = __WIN32_ERR(GetLastError());
#endif
if (ret != TRUE) {
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
RETURN (false);
}
RETURN (true);
}
if (__isUnicode16String(fullPathName)) {
#ifdef DO_WRAP_CALLS
{
wchar_t _wPathName[MAXPATHLEN+1];
int i, l;
l = __unicode16StringSize(fullPathName);
if (l > MAXPATHLEN) l = MAXPATHLEN;
for (i=0; i<l; i++) {
_wPathName[i] = __unicode16StringVal(fullPathName)[i];
}
_wPathName[i] = 0;
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL1( "RemoveDirectoryW", RemoveDirectoryW, _wPathName);
} while ((ret < 0) && (__threadErrno == EINTR));
}
#else
ret = RemoveDirectoryW((char *)__stringVal(fullPathName));
__threadErrno = __WIN32_ERR(GetLastError());
#endif
if (ret != TRUE) {
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
RETURN (false);
}
RETURN (true);
}
%}.
"/
"/ either not a string argument,
"/ or not supported by OS
"/
^ self primitiveFailed
"
OperatingSystem createDirectory:'foo'
OperatingSystem removeDirectory:'foo'
"
!
removeFile:fullPathName
"remove the file named 'fullPathName'; return true if successful.
This is a lowLevel entry - use Filename protocol for compatibility."
%{
int ret;
if (__isStringLike(fullPathName)) {
#ifdef DO_WRAP_CALLS
{
char _aPathName[MAXPATHLEN];
strncpy(_aPathName, __stringVal(fullPathName), MAXPATHLEN-1); _aPathName[MAXPATHLEN-1] = '\0';
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL1( "DeleteFileA", DeleteFileA, _aPathName);
} while ((ret < 0) && (__threadErrno == EINTR));
}
#else
ret = DeleteFileA((char *)__stringVal(fullPathName));
__threadErrno = __WIN32_ERR(GetLastError());
#endif
if (ret != TRUE) {
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
RETURN (false);
}
RETURN (true);
}
if (__isUnicode16String(fullPathName)) {
#ifdef DO_WRAP_CALLS
{
wchar_t _wPathName[MAXPATHLEN+1];
int i, l;
l = __unicode16StringSize(fullPathName);
if (l > MAXPATHLEN) l = MAXPATHLEN;
for (i=0; i<l; i++) {
_wPathName[i] = __unicode16StringVal(fullPathName)[i];
}
_wPathName[i] = 0;
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL1( "DeleteFileW", DeleteFileW, _wPathName);
} while ((ret < 0) && (__threadErrno == EINTR));
}
#else
ret = DeleteFileW((char *)__stringVal(fullPathName));
__threadErrno = __WIN32_ERR(GetLastError());
#endif
if (ret != TRUE) {
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
RETURN (false);
}
RETURN (true);
}
%}.
^ self primitiveFailed
!
renameFile:oldPath to:newPath
"rename the file 'oldPath' to 'newPath'.
Someone else has to care for the names to be correct and
correct for the OS used - therefore, this should not be called
directlt. Instead, use Filename protocol to rename; this cares for
any invalid names.
Returns true if successful, false if not"
%{
int ret, eno;
if (__isStringLike(oldPath) && __isStringLike(newPath)) {
#ifdef DO_WRAP_CALLS
char _oldPath[MAXPATHLEN], _newPath[MAXPATHLEN];
strncpy(_oldPath, __stringVal(oldPath), MAXPATHLEN-1); _oldPath[MAXPATHLEN-1] = '\0';
strncpy(_newPath, __stringVal(newPath), MAXPATHLEN-1); _newPath[MAXPATHLEN-1] = '\0';
do {
__threadErrno = 0;
ret = STX_C_NOINT_CALL2( "rename", rename, _oldPath, _newPath);
} while ((ret < 0) && (__threadErrno == EINTR));
#else
__BEGIN_INTERRUPTABLE__
do {
__threadErrno = 0;
ret = rename((char *) __stringVal(oldPath), (char *) __stringVal(newPath));
} while ((ret < 0) && (__threadErrno == EINTR));
__END_INTERRUPTABLE__
if (ret < 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
if (ret < 0) {
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
RETURN (false);
}
RETURN (true);
}
%}.
^ self primitiveFailed
"
OperatingSystem renameFile:'foo' to:'bar'
"
!
truncateFile:aPathName to:newSize
"change a files size return true on success, false on failure.
This may not be supported on all architectures.
This is a low-level entry - use Filename protocol."
^ self primitiveFailed
! !
!Win32OperatingSystem class methodsFor:'file access rights'!
accessMaskFor:aSymbol
"return the access bits mask for numbers as returned by
OperatingSystem>>accessModeOf:
and expected by OperatingSystem>>changeAccessModeOf:to:.
Since these numbers are OS dependent, always use the mask
(never hardcode 8rxxx into your code)."
%{ /* NOCONTEXT */
/* posix systems should define these ... */
# ifndef S_IRUSR
# define S_IRUSR 0400
# endif
# ifndef S_IWUSR
# define S_IWUSR 0200
# endif
# ifndef S_IXUSR
# define S_IXUSR 0100
# endif
# ifndef S_IRGRP
# define S_IRGRP 0040
# endif
# ifndef S_IWGRP
# define S_IWGRP 0020
# endif
# ifndef S_IXGRP
# define S_IXGRP 0010
# endif
# ifndef S_IROTH
# define S_IROTH 0004
# endif
# ifndef S_IWOTH
# define S_IWOTH 0002
# endif
# ifndef S_IXOTH
# define S_IXOTH 0001
# endif
if (aSymbol == @symbol(readUser)) {
RETURN ( __mkSmallInteger(S_IRUSR) );
}
if (aSymbol == @symbol(writeUser)) {
RETURN ( __mkSmallInteger(S_IWUSR) );
}
if (aSymbol == @symbol(executeUser)) {
RETURN ( __mkSmallInteger(S_IXUSR) );
}
if (aSymbol == @symbol(readGroup)) {
RETURN ( __mkSmallInteger(S_IRGRP) );
}
if (aSymbol == @symbol(writeGroup)) {
RETURN ( __mkSmallInteger(S_IWGRP) );
}
if (aSymbol == @symbol(executeGroup)) {
RETURN ( __mkSmallInteger(S_IXGRP) );
}
if (aSymbol == @symbol(readOthers)) {
RETURN ( __mkSmallInteger(S_IROTH) );
}
if (aSymbol == @symbol(writeOthers)) {
RETURN ( __mkSmallInteger(S_IWOTH) );
}
if (aSymbol == @symbol(executeOthers)) {
RETURN ( __mkSmallInteger(S_IXOTH) );
}
// These are not defined for Win32 - simply ignore them
// (but handle them for UNIX compatibility
if (aSymbol == @symbol(setUid)) {
RETURN ( __mkSmallInteger(0) );
}
if (aSymbol == @symbol(setGid)) {
RETURN ( __mkSmallInteger(0) );
}
if (aSymbol == @symbol(removeOnlyByOwner)) {
RETURN ( __mkSmallInteger(0) );
}
%}.
^ self primitiveFailed
"
OperatingSystem accessMaskFor:#readUser
"
!
accessModeOf:aPathName
"return a number representing access rights rwxrwxrwx for owner,
group and others. Return nil if such a file does not exist.
Notice that the returned number is OS dependent - use the
modeMasks as returned by OperatingSystem>>accessMaskFor:"
"
this could have been implemented as:
(self infoOf:aPathName) at:#mode
but for huge directory searches the code below is faster
"
%{
struct stat buf;
int ret;
if (__isStringLike(aPathName)) {
#ifdef DO_WRAP_CALLS
char _aPathName[MAXPATHLEN];
strncpy(_aPathName, __stringVal(aPathName), MAXPATHLEN-1); _aPathName[MAXPATHLEN-1] = '\0';
do {
__threadErrno = 0;
ret = STX_C_NOINT_CALL2( "stat", stat, _aPathName, &buf);
} while ((ret < 0) && (__threadErrno == EINTR));
#else
__BEGIN_INTERRUPTABLE__
do {
__threadErrno = 0;
ret = stat( (char *)__stringVal(aPathName), &buf);
} while ((ret < 0) && (__threadErrno == EINTR));
__END_INTERRUPTABLE__
if (ret < 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
if (ret < 0) {
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
RETURN ( nil );
}
RETURN ( __mkSmallInteger(buf.st_mode & 0777) );
}
%}.
^ self primitiveFailed
"
(OperatingSystem accessModeOf:'/') printStringRadix:8
(OperatingSystem accessModeOf:'Make.proto') printStringRadix:8
(OperatingSystem changeAccessModeOf:'Make.proto' to:8r644)
"
!
changeAccessModeOf:aPathName to:modeBits
"change the access rights of aPathName to the OS dependent modeBits.
You should construct this mask using accessMaskFor, to be OS
independent. Return true if changed,
false if such a file does not exist or change was not allowd."
%{
int ret;
if (__isStringLike(aPathName) && __isSmallInteger(modeBits)) {
#ifdef DO_WRAP_CALLS
int chmod();
char _aPathName[MAXPATHLEN];
strncpy(_aPathName, __stringVal(aPathName), MAXPATHLEN-1); _aPathName[MAXPATHLEN-1] = '\0';
do {
__threadErrno = 0;
ret = STX_C_NOINT_CALL2( "chmod", chmod, _aPathName, __intVal(modeBits));
} while ((ret < 0) && (__threadErrno == EINTR));
#else
__BEGIN_INTERRUPTABLE__
do {
__threadErrno = 0;
ret = chmod((char *)__stringVal(aPathName), __intVal(modeBits));
} while ((ret < 0) && (__threadErrno == EINTR));
__END_INTERRUPTABLE__
if (ret < 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
if (ret < 0) {
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
RETURN ( false );
}
RETURN ( true );
}
%}.
^ self primitiveFailed
"
(OperatingSystem accessModeOf:'Make.proto') printStringRadix:8
(OperatingSystem changeAccessModeOf:'Make.proto' to:8r644)
"
! !
!Win32OperatingSystem class methodsFor:'file dialogs'!
commDlgExtendedError
<apicall: ulong "CommDlgExtendedError" () module: "comdlg32.dll" >
^self primitiveFailed
!
getOpenFilename: openFilenameStructureExternalAddress
"Opens a windows native file dialog without blocking stx for an OpenFilenameStructure stored in an externalAddress.
openFilenameStructureExternalAddress is an integer representing it's address"
| rslt |
%{ /* STACK: 32000*/
int __address;
BOOL __rslt;
__address = __intVal(openFilenameStructureExternalAddress);
__rslt = __STX_API_CALL1( "GetOpenFileName", (void *)GetOpenFileName, (void *)(__address));
if (__rslt == TRUE) {
rslt = true;
} else {
rslt = false;
}
%}.
^ rslt
!
getSaveFilename: openFilenameStructureExternalAddress
"Opens a windows native file dialog without blocking stx for an OpenFilenameStructure stored in an externalAddress.
openFilenameStructureExternalAddress is an integer representing it's address"
| rslt |
%{ /* STACK: 32000*/
int __address;
BOOL __rslt;
__address = __intVal(openFilenameStructureExternalAddress);
__rslt = __STX_API_CALL1( "GetSaveFileName", (void *)GetSaveFileName, (void *)(__address));
if (__rslt == TRUE) {
rslt = true;
} else {
rslt = false;
}
%}.
^ rslt
! !
!Win32OperatingSystem class methodsFor:'file queries'!
caseSensitiveFilenames
"return true, if the OS has caseSensitive file naming.
On MSDOS, this will return false;
on a real OS, we return true."
^ false
!
compressPath:pathName
"return the pathName compressed - that is, remove all ..-entries
and . entries. This does not always (in case of symbolic links)
return the true pathName and is therefore used as a fallback
if realPath and popen failed."
|names n "{ Class: SmallInteger }" |
names := pathName
asCollectionOfSubstringsSeparatedBy:self fileSeparator.
names := names asOrderedCollection.
"
cut off initial double-slashes
"
[names startsWith:#('' '')] whileTrue:[
names removeFirst.
].
"
cut off double-slashes at end
"
[names endsWith:#('')] whileTrue:[
names removeLast.
].
"
cut off current-dir at beginning
"
n := names size.
[(n >= 2) and:[names startsWith:#('.')]] whileTrue:[
names removeFirst.
n := n - 1.
].
"
cut off parent-dirs at end
"
[(n > 2)
and:[(names endsWith:#('..'))
and:[((names at:(n - 1)) startsWith:'.') not ]]] whileTrue:[
names removeLast; removeLast.
n := n - 2.
].
^ names asStringWith:self fileSeparator
from:1
to:n
compressTabs:false final:nil
"
OperatingSystem compressPath:'.\..'
OperatingSystem compressPath:'\foo\bar\baz\..'
OperatingSystem compressPath:'foo\bar\baz\..'
OperatingSystem compressPath:'foo\bar\baz\..\'
OperatingSystem compressPath:'foo\bar\baz\..\\\'
OperatingSystem compressPath:'\\\foo\bar\baz\..\\\'
"
"Modified: 1.11.1996 / 20:13:48 / cg"
!
fileSeparator
"return the character used to separate names in a path.
This character differs for MSDOS and other systems,
(but those are currently not supported - so this is some
preparation for the future)"
^ $\
!
getCurrentDirectory
|s size|
s := Unicode16String new:1024.
size := self primGetCurrentDirectoryW:1024 string: s.
(size isNil or:[size == 0]) ifTrue:[^ ''].
^ (s copyFrom:1 to: size) asSingleByteStringIfPossible
"
self getCurrentDirectory
"
!
getDiskInfoOf:volumeNameArg
"returns a dictionary filled with any of:
freeBytes
totalBytes
and possibly additional (OS-specific) information"
|volumeName info ok sectorsPerCluster bytesPerSector freeClusters totalClusters
type freeBytesForUsersQuota freeBytes totalBytes |
volumeName := volumeNameArg.
(volumeName endsWith:$\) ifFalse:[
volumeName := volumeName , '\'
].
%{
typedef BOOL (WINAPI *P_GDFSE)(LPCTSTR, PULARGE_INTEGER,
PULARGE_INTEGER, PULARGE_INTEGER);
P_GDFSE pGetDiskFreeSpaceEx = NULL;
DWORD __sectorsPerCluster, __bytesPerSector, __freeClusters, __totalClusters;
BOOL fResult = 0;
unsigned __int64 i64FreeBytesForUsersQuota, i64TotalBytes, i64FreeBytes;
if (__isStringLike(volumeName) || __isSymbol(volumeName)) {
/*
* Use GetDiskFreeSpaceEx if available; otherwise, use GetDiskFreeSpace.
* Notice that GetDiskFreeSpace does not work correctly under win2k,
* and GetDiskFreeSpaceEx is not avail. for all win versions (can microsoft ever do something right ?).
*/
pGetDiskFreeSpaceEx = (P_GDFSE)GetProcAddress (
GetModuleHandle ("kernel32.dll"),
"GetDiskFreeSpaceExA");
if (pGetDiskFreeSpaceEx) {
fResult = pGetDiskFreeSpaceEx (__stringVal(volumeName),
(PULARGE_INTEGER)&i64FreeBytesForUsersQuota,
(PULARGE_INTEGER)&i64TotalBytes,
(PULARGE_INTEGER)&i64FreeBytes);
if (fResult) {
freeBytesForUsersQuota = __MKUINT64(&i64FreeBytesForUsersQuota);
totalBytes = __MKUINT64(&i64TotalBytes);
freeBytes = __MKUINT64(&i64FreeBytes);
}
}
fResult = GetDiskFreeSpace(__stringVal(volumeName),
&__sectorsPerCluster,
&__bytesPerSector,
&__freeClusters,
&__totalClusters);
if (fResult) {
sectorsPerCluster = __MKUINT(__sectorsPerCluster);
bytesPerSector = __MKUINT(__bytesPerSector);
freeClusters = __MKUINT(__freeClusters);
totalClusters = __MKUINT(__totalClusters);
}
switch (GetDriveType(__stringVal(volumeName))) {
case DRIVE_REMOVABLE:
type = @symbol(removable); break;
case DRIVE_FIXED:
type = @symbol(fixed); break;
case DRIVE_REMOTE:
type = @symbol(network); break;
case DRIVE_CDROM:
type = @symbol(cdrom); break;
case DRIVE_RAMDISK:
type = @symbol(ramdisk); break;
case DRIVE_UNKNOWN:
default:
break;
}
if (fResult) {
ok = true;
} else {
__threadErrno = __WIN32_ERR(GetLastError());
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
}
}
%}.
ok == true ifFalse:[
self primitiveFailed.
^ self
].
info := IdentityDictionary new.
info at:#sectorsPerCluster put:sectorsPerCluster.
info at:#bytesPerSector put:bytesPerSector.
info at:#freeClusters put:freeClusters.
info at:#totalClusters put:totalClusters.
info at:#freeBytes put:(freeBytes notNil
ifTrue:[freeBytes]
ifFalse:[freeClusters * sectorsPerCluster * bytesPerSector]).
info at:#totalBytes put:(totalBytes notNil
ifTrue:[totalBytes]
ifFalse:[totalClusters * sectorsPerCluster * bytesPerSector]).
info at:#freeBytesForUsersQuota put:freeBytesForUsersQuota.
type notNil ifTrue:[
info at:#type put:type
].
^ info
"
self getDiskInfoOf:'c:\'
self getDiskInfoOf:'d:\'
self getDiskInfoOf:'e:\'
self getDiskInfoOf:'f:\'. OperatingSystem lastErrorString
"
"Modified: / 26-09-2006 / 16:19:33 / cg"
!
getDriveList
"return a list of volumes in the system.
On unix, no such thing like a volume exists
- there, a syntetic list with root, home & current is returned.
On MSDOS, a list of drive letters is (eventually) returned.
On VMS, a list of volumes is (eventually) returned."
|list|
list := OrderedCollection new.
%{
/*
* add drive letters as strings to list ...
*/
char buffer[1024];
char *cp;
GetLogicalDriveStrings(1023, buffer);
for (cp=buffer; *cp; ) {
__SSEND1(list, @symbol(add:), 0, __MKSTRING(cp));
cp += strlen(cp) + 1;
}
%}.
^ list
!
getDriveType:aPathName
"returns:
0 -> Unknown
1 -> Invalid
2 -> removable
3 -> fixed
4 -> remote
5 -> cdrom
6 -> ramdisk.
This is a stupid interface - do not use."
%{
int ret;
if (__isStringLike(aPathName)) {
#ifdef DO_WRAP_CALLS
char _aPathName[MAXPATHLEN];
strncpy(_aPathName, __stringVal(aPathName), MAXPATHLEN-1); _aPathName[MAXPATHLEN-1] = '\0';
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL1( "GetDriveType", GetDriveType, _aPathName);
} while ((ret < 0) && (__threadErrno == EINTR));
#else
ret = GetDriveType((char *) __stringVal(aPathName));
if (ret < 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
RETURN (__MKSMALLINT(ret));
}
%}.
^ self primitiveFailed
"
self getDriveType:'x:\'
self getDriveType:'C:\'
self getDriveType:'D:\'
"
!
getFileVersionInfoOf:aPathName
"retrieves the versionData from an executable or dll.
The returned value is either a byteArray, which should be
processed further with extractVersionValue (VerQueryValue),
or nil.
This is a WIN32 specific entry, not for common usage."
%{
int sz;
DWORD dummy;
if (__isStringLike(aPathName)) {
sz = GetFileVersionInfoSizeA(__stringVal(aPathName), &dummy);
} else if (__isUnicode16String(aPathName)) {
sz = GetFileVersionInfoSizeW(__unicode16StringVal(aPathName), &dummy);
} else {
goto badArgument;
}
if (sz > 0) {
OBJ versionData;
versionData = __BYTEARRAY_UNINITIALIZED_NEW_INT(sz);
if (versionData == nil) {
RETURN (nil);
}
if (GetFileVersionInfo(__stringVal(aPathName), 0, sz, __ByteArrayInstPtr(versionData)->ba_element) == FALSE) {
RETURN (nil);
}
RETURN (versionData);
}
RETURN (nil);
badArgument: ;
%}.
self primitiveFailed
"Modified: / 05-07-2006 / 16:56:06 / cg"
!
getLongPathName:aPathName
"get the full (long, not 8.3) version of aPathName"
%{
int ret;
wchar_t _aPathName[MAX_PATH+1];
if (__isStringLike(aPathName)) {
int i;
int l = __stringSize(aPathName);
if (l > MAX_PATH) l = MAX_PATH;
for (i=0; i<l; i++) {
_aPathName[i] = __stringVal(aPathName)[i];
}
_aPathName[i] = 0;
} else if (__isUnicode16String(aPathName)) {
int i;
int l = __unicode16StringSize(aPathName);
if (l > MAX_PATH) l = MAX_PATH;
for (i=0; i<l; i++) {
_aPathName[i] = __unicode16StringVal(aPathName)[i];
}
_aPathName[i] = 0;
} else
goto badArgument;
#ifdef DO_WRAP_CALLS
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL3( "GetLongPathNameW", GetLongPathNameW, _aPathName, _aPathName, MAX_PATH+1);
} while ((ret == 0) && (__threadErrno == EINTR));
#else
ret = GetLongPathNameW(_aPathName, _aPathName, MAX_PATH+1);
if (ret == 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
RETURN ( __MKU16STRING(_aPathName));
badArgument:;
%}.
^ self primitiveFailed
"
self getLongPathName:'x:\'
self getLongPathName:'c:\Dokumente und Einstellungen'
self getShortPathName:'c:\Dokumente und Einstellungen'
"
!
getNullDevice
"get the name of the null-device."
^ 'nul:'
!
getShortPathName:aPathName
"get the full (long, not 8.3) version of aPathName"
%{
int ret;
wchar_t _aPathName[MAX_PATH+1];
if (__isStringLike(aPathName)) {
int i;
int l = __stringSize(aPathName);
if (l > MAX_PATH) l = MAX_PATH;
for (i=0; i<l; i++) {
_aPathName[i] = __stringVal(aPathName)[i];
}
_aPathName[i] = 0;
} else if (__isUnicode16String(aPathName)) {
int i;
int l = __unicode16StringSize(aPathName);
if (l > MAX_PATH) l = MAX_PATH;
for (i=0; i<l; i++) {
_aPathName[i] = __unicode16StringVal(aPathName)[i];
}
_aPathName[i] = 0;
} else
goto badArgument;
#ifdef DO_WRAP_CALLS
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL3( "GetShortPathNameW", GetShortPathNameW, _aPathName, _aPathName, MAX_PATH+1);
} while ((ret == 0) && (__threadErrno == EINTR));
#else
ret = GetShortPathNameW(_aPathName, _aPathName, MAX_PATH+1);
if (ret == 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
RETURN ( __MKU16STRING(_aPathName));
badArgument:;
%}.
^ self primitiveFailed
"
self getShortPathName:'x:\'
self getShortPathName:'c:\Dokumente und Einstellungen'
self getLongPathName:'c:\Dokumente und Einstellungen'
"
!
getVolumeInformation: rootPath
name: volumeNameBuffer
nameSize: volumeNameSize
serialNumber: serialNumber
maximumComponentLength: maximumComponentLength
fileSystemFlags: fileSystemFlags
fileSystemName: fileSystemName
fileSystemNameSize: fileSystemNameSize
<apicall: boolean "GetVolumeInformationA" (struct struct ulong struct struct struct struct ulong) module: "kernel32.dll" >
^self primitiveFailed
!
infoOf:aPathName
"return some object filled with info for the file 'aPathName';
the info (for which corresponding access methods are understood by
the returned object) is:
type - a symbol giving the files type
mode - numeric access mode
uid - owners user id
gid - owners group id
size - files size
id - files number (i.e. inode number)
accessed - last access time (as Timestamp)
modified - last modification time (as Timestamp)
statusChanged - last status change time (as Timestamp)
alternativeName - (windows only:) the MSDOS name of the file
Some of the fields may be returned as nil on systems which do not provide
all of the information.
Return nil if such a file does not exist.
For symbolic links (if supported by the OS),
the info of the pointed-to-file (i.e. the target) is returned;
use #linkInfoOf: to get info about the link itself.
"
|info target|
info := self linkInfoOf:aPathName.
(info notNil and:[info isSymbolicLink]) ifTrue:[
target := info path.
target notNil ifTrue:[
^ self linkInfoOf:target.
]
].
^ info
"
OperatingSystem infoOf:'c:\windows'
OperatingSystem infoOf:'stx.exe'
(OperatingSystem infoOf:'/') uid
(OperatingSystem infoOf:'/') accessed
"
"Modified: / 07-02-2007 / 10:37:14 / cg"
!
isDirectory:aPathName
"return true, if 'aPathName' is a valid directory path name.
(i.e. exists and is a directory).
This also returns true for symbolic links pointing to a directory;
if you need to check for this, use #linkInfo:."
%{
int ret;
if (__isStringLike(aPathName)) {
#ifdef DO_WRAP_CALLS
char _aPathName[MAXPATHLEN];
strncpy(_aPathName, __stringVal(aPathName), MAXPATHLEN-1); _aPathName[MAXPATHLEN-1] = '\0';
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL1( "GetFileAttributesA", GetFileAttributesA, _aPathName);
} while ((ret == -1) && (__threadErrno == EINTR));
#else
ret = GetFileAttributesA((char *) __stringVal(aPathName));
if (ret == -1) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
} else if (__isUnicode16String(aPathName)) {
wchar_t _wPathName[MAXPATHLEN+1];
int i, l;
l = __unicode16StringSize(aPathName);
if (l > MAXPATHLEN) l = MAXPATHLEN;
for (i=0; i<l; i++) {
_wPathName[i] = __unicode16StringVal(aPathName)[i];
}
_wPathName[i] = 0;
#ifdef DO_WRAP_CALLS
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL1( "GetFileAttributesW", GetFileAttributesW, _wPathName);
} while ((ret == -1) && (__threadErrno == EINTR));
#else
ret = GetFileAttributesW(_wPathName);
if (ret == -1) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
} else
goto err;
if (ret < 0) {
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
RETURN ( false );
}
RETURN ( (ret & FILE_ATTRIBUTE_DIRECTORY) ? true : false);
err:;
%}.
^ self primitiveFailed
"an alternative implementation would be:
^ (self infoOf:aPathName) type == #directory
"
"
self isDirectory:'.'
self isDirectory:'.' asUnicode16String
"
"Modified: / 05-07-2006 / 17:23:42 / cg"
!
isExecutable:aPathName
"return true, if the given file is executable.
For symbolic links, the pointed-to-file is checked."
"/
"/ under windows, there is no executable attribute ...
"/ so, only check for the files existence here.
"/
^ self isValidPath:aPathName.
"Modified: / 05-07-2006 / 17:23:19 / cg"
!
isHidden:aPathName
"return true, if the given file is hidden"
|attr|
attr := self primGetFileAttributes:aPathName.
attr notNil ifTrue:[^ attr bitTest: FILE_ATTRIBUTE_HIDDEN ].
^ false
"
self isHidden:'.'
self isHidden:'.' asUnicode16String
"
!
isReadable:aPathName
"return true, if the file/dir 'aPathName' is readable.
For symbolic links, the pointed-to-file is checked."
%{
if (__isStringLike(aPathName)) {
int ret;
/*
* under windows, all files are readable ...
* so, only check for the files existence here.
*/
#ifdef DO_WRAP_CALLS
char _aPathName[MAXPATHLEN];
strncpy(_aPathName, __stringVal(aPathName), MAXPATHLEN-1); _aPathName[MAXPATHLEN-1] = '\0';
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL1( "GetFileAttributesA", GetFileAttributesA, _aPathName);
} while ((ret < 0) && (__threadErrno == EINTR));
#else
ret = GetFileAttributesA((char *) __stringVal(aPathName));
if (ret < 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
if (ret < 0) {
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
RETURN (false);
}
RETURN (true);
}
if (__isUnicode16String(aPathName)) {
int ret;
/*
* under windows, all files are readable ...
* so, only check for the files existence here.
*/
wchar_t _wPathName[MAXPATHLEN+1];
int i, l;
l = __unicode16StringSize(aPathName);
if (l > MAXPATHLEN) l = MAXPATHLEN;
for (i=0; i<l; i++) {
_wPathName[i] = __unicode16StringVal(aPathName)[i];
}
_wPathName[i] = 0;
#ifdef DO_WRAP_CALLS
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL1( "GetFileAttributesW", GetFileAttributesW, _wPathName);
} while ((ret < 0) && (__threadErrno == EINTR));
#else
ret = GetFileAttributesW(_wPathName);
if (ret < 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
if (ret < 0) {
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
RETURN (false);
}
RETURN (true);
}
%}.
^ self primitiveFailed
"
self isReadable:'.'
self isReadable:'.' asUnicode16String
"
!
isTemporary:aPathName
"return true, if the given file is a temporary file"
|attr|
attr := self primGetFileAttributes:aPathName.
attr notNil ifTrue:[^ attr bitTest: FILE_ATTRIBUTE_TEMPORARY ].
^ false
"
self isTemporary:'.'
self isTemporary:'.' asUnicode16String
"
!
isValidPath:aPathName
"return true, if 'aPathName' is a valid path name
(i.e. the file or directory exists)"
%{
int ret;
if (__isStringLike(aPathName)) {
#ifdef DO_WRAP_CALLS
char _aPathName[MAXPATHLEN];
strncpy(_aPathName, __stringVal(aPathName), MAXPATHLEN-1); _aPathName[MAXPATHLEN-1] = '\0';
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL1( "GetFileAttributesA", GetFileAttributesA, _aPathName);
} while ((ret == -1) && (__threadErrno == EINTR));
#else
ret = GetFileAttributesA((char *) __stringVal(aPathName));
if (ret == -1) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
} else if (__isUnicode16String(aPathName)) {
wchar_t _wPathName[MAXPATHLEN+1];
int i, l;
l = __unicode16StringSize(aPathName);
if (l > MAXPATHLEN) l = MAXPATHLEN;
for (i=0; i<l; i++) {
_wPathName[i] = __unicode16StringVal(aPathName)[i];
}
_wPathName[i] = 0;
#ifdef DO_WRAP_CALLS
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL1( "GetFileAttributesW", GetFileAttributesW, _wPathName);
} while ((ret == -1) && (__threadErrno == EINTR));
#else
ret = GetFileAttributesW(_wPathName);
if (ret == -1) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
} else
goto err;
if (ret == -1) {
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
RETURN ( false );
}
RETURN (true);
err:;
%}.
^ self primitiveFailed
"Modified: / 05-07-2006 / 17:23:51 / cg"
!
isWritable:aPathName
"return true, if the given file is writable.
For symbolic links, the pointed-to-file is checked.
In Windows, files can possibly be created in and deleted from directories marked as read only.
See http://support.microsoft.com/kb/326549.
So we always return true for directories."
|attr|
attr := self primGetFileAttributes:aPathName.
attr notNil ifTrue:[
^ (attr bitAnd: (FILE_ATTRIBUTE_DIRECTORY | FILE_ATTRIBUTE_READONLY ))
~~ FILE_ATTRIBUTE_READONLY
].
^ false
"
self isWritable:'.'
self isWritable:'.' asUnicode16String
self isWritable:'' asUnicode16String
"
!
linkInfoOf:aPathName
"return some object filled with info for the file 'aPathName';
the info (for which corresponding access methods are understood by
the returned object) is:
type - a symbol giving the files type
mode - numeric access mode
uid - owners user id
gid - owners group id
size - files size
id - files number (i.e. inode number)
accessed - last access time (as Timestamp)
modified - last modification time (as Timestamp)
statusChanged - last status change time (as Timestamp)
alternativeName - (windows only:) the MSDOS name of the file
Some of the fields may be returned as nil on systems which do not provide
all of the information.
Return nil if such a file does not exist.
For symbolic links (if supported by the OS),
the info of the pointed-to-file (i.e. the target) is returned;
use #linkInfoOf: to get info about the link itself.
"
|info type mode uid gid size id
atime mtime ctime
aOsTime mOsTime cOsTime
fileName alternativeName|
%{
BOOL result;
int ret;
wchar_t alternativeFileNameBuffer[15];
wchar_t fileNameBuffer[MAX_PATH+1];
int modeBits = 0;
WIN32_FILE_ATTRIBUTE_DATA fileAttributeData;
unsigned INT ino;
wchar_t _aPathName[MAX_PATH+1];
if (__isStringLike(aPathName)) {
int i;
int l = __stringSize(aPathName);
if (l > MAX_PATH) l = MAX_PATH;
for (i=0; i<l; i++) {
_aPathName[i] = __stringVal(aPathName)[i];
}
_aPathName[i] = 0;
} else if (__isUnicode16String(aPathName)) {
int i;
int l = __unicode16StringSize(aPathName);
if (l > MAX_PATH) l = MAX_PATH;
for (i=0; i<l; i++) {
_aPathName[i] = __unicode16StringVal(aPathName)[i];
}
_aPathName[i] = 0;
} else
goto badArgument;
#ifdef DO_WRAP_CALLS
{
do {
__threadErrno = 0;
result = STX_API_NOINT_CALL3( "GetFileAttributesExW", GetFileAttributesExW, _aPathName, GetFileExInfoStandard, &fileAttributeData);
} while (!result && (__threadErrno == EINTR));
}
#else
result = GetFileAttributesExW(_aPathName, GetFileExInfoStandard, &fileAttributeData);
if (!result) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
if (!result) {
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
} else {
id = __mkSmallInteger(0); /* could get it by opening ... */
size = __MKLARGEINT64(1, fileAttributeData.nFileSizeLow, fileAttributeData.nFileSizeHigh);
// if (fileAttributeData.cFileName[0] != '\0') {
// bcopy(fileAttributeData.cFileName, fileNameBuffer, MAX_PATH*sizeof(wchar_t));
// fileNameBuffer[MAX_PATH] = '\0';
// fileName = __MKU16STRING(fileNameBuffer); /* FULL name */
// }
// if (fileAttributeData.cAlternateFileName[0] != '\0') {
// bcopy(fileAttributeData.cAlternateFileName, alternativeFileNameBuffer, 14*sizeof(wchar_t));
// alternativeFileNameBuffer[14] = '\0';
// alternativeName = __MKU16STRING(alternativeFileNameBuffer); /* DOS name */
// }
/*
* simulate access bits
*/
if (fileAttributeData.dwFileAttributes & FILE_ATTRIBUTE_READONLY) {
modeBits = 0444;
} else {
modeBits = 0666;
}
if (fileAttributeData.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) {
type = @symbol(directory);
modeBits = 0777; /* executable and WRITABLE - refer to comment in #isWritable: */
} else if (fileAttributeData.dwFileAttributes & FILE_ATTRIBUTE_REPARSE_POINT) {
type = @symbol(symbolicLink);
modeBits = 0777; /* even in UNIX symlinks have 0777 */
} else {
type = @symbol(regular);
}
mode = __mkSmallInteger(modeBits);
cOsTime = FileTimeToOsTime(&fileAttributeData.ftCreationTime);
aOsTime = FileTimeToOsTime(&fileAttributeData.ftLastAccessTime);
mOsTime = FileTimeToOsTime(&fileAttributeData.ftLastWriteTime);
}
badArgument: ;
%}.
(aPathName endsWith:'.lnk') ifTrue:[
type := #symbolicLink.
"/ now done lazyly in FileStatusInfo, when the path is accessed
"/ path := self getLinkTarget:aPathName.
].
mode isNil ifTrue:[
(self isDirectory:aPathName) ifTrue:[
"/ the code above fails for root directories (these do not exist).
"/ simulate here
mode := 8r777.
type := #directory.
uid := gid := 0.
size := 0.
id := 0.
atime := mtime := ctime := Timestamp now.
].
].
mode notNil ifTrue:[
atime isNil ifTrue:[
atime := Timestamp new fromOSTime:aOsTime.
].
mtime isNil ifTrue:[
mtime := Timestamp new fromOSTime:mOsTime.
].
ctime isNil ifTrue:[
ctime := Timestamp new fromOSTime:cOsTime.
].
fileName notNil ifTrue:[
fileName := fileName asSingleByteStringIfPossible
].
alternativeName notNil ifTrue:[
alternativeName := alternativeName asSingleByteStringIfPossible
].
info := FileStatusInfo
type:type
mode:mode
uid:uid
gid:gid
size:size
id:id
accessed:atime
modified:mtime
created:ctime
sourcePath:aPathName
fullName:fileName
alternativeName:alternativeName.
^ info
].
^ nil
"
OperatingSystem linkInfoOf:'c:\windows'
OperatingSystem linkInfoOf:'stx.exe'
(OperatingSystem linkInfoOf:'/') uid
(OperatingSystem linkInfoOf:'/') accessed
OperatingSystem linkInfoOf:'C:\Dokumente und Einstellungen\stefan\Desktop\System.lnk'
"
"Modified: / 07-02-2007 / 10:30:14 / cg"
!
mimeTypeForSuffix:aFileSuffix
"given a file suffix, return a corresponding mimeType.
Here, the Registry is consulted.
Returns nil if no mimeType for the given suffix is known."
^ RegistryEntry
stringValueFor:'Content Type'
atKey:('HKEY_CLASSES_ROOT\.' , aFileSuffix)
"
self mimeTypeForSuffix:'au'
self mimeTypeForSuffix:'st'
self mimeTypeForSuffix:'dll'
"
!
parentDirectoryName
"return the name used to refer to parent directories.
In MSDOS, Unix and other systems this is '..', but maybe different
for other systems.
(but those are currently not supported - so this is some
preparation for the future)"
^ '..'
!
pathNameOf:pathName
"return the pathName of the argument, aPathString,
- thats the full pathname of the directory, starting at '/'.
This method needs the path to be valid
(i.e. all directories must exist, be readable and executable).
Notice: if symbolic links are involved, the result may look different
from what you expect."
|p path|
"some systems have a convenient function for this ..."
path := self primPathNameOf:pathName.
path isNil ifTrue:[
(self isValidPath:pathName) ifFalse:[
p := pathName.
[(p size > 1)
and:[p endsWith:(self fileSeparator)]
] whileTrue:[
p := p copyWithoutLast:1.
].
^ p
].
"/
"/ return the original - there is nothing else can we do
"/
path := self compressPath:pathName
].
^ path.
"
OperatingSystem pathNameOf:'.'
OperatingSystem pathNameOf:'../smalltalk/../smalltalk'
OperatingSystem pathNameOf:'../../..'
OperatingSystem pathNameOf:'..'
OperatingSystem pathNameOf:'/tmp////'
OperatingSystem pathNameOf:'/foo/bar'
OperatingSystem pathNameOf:'/foo/bar/'
OperatingSystem pathNameOf:'/foo/bar//'
"
"Modified: 29.11.1996 / 18:02:12 / stefan"
"Modified: 10.1.1997 / 19:10:42 / cg"
!
primGetCurrentDirectory: size string: string
<apicall: ulong "GetCurrentDirectoryA" ( ulong pointer ) module: "kernel32.dll" >
self primitiveFailed.
"
|s size|
s := String new:200.
size := self primGetCurrentDirectory:200 string: s.
s copyFrom:1 to: size
"
!
primGetCurrentDirectoryW: size string: string
<apicall: ulong "GetCurrentDirectoryW" ( ulong pointer ) module: "kernel32.dll" >
self primitiveFailed.
"
|s size|
s := Unicode16String new:200.
size := self primGetCurrentDirectoryW:200 string: s.
s copyFrom:1 to: size
"
!
primGetFileAttributes:aPathName
"get the file-attributes"
|errorNumber|
%{
int ret;
if (__isStringLike(aPathName)) {
#ifdef DO_WRAP_CALLS
char _aPathName[MAXPATHLEN];
strncpy(_aPathName, __stringVal(aPathName), MAXPATHLEN-1); _aPathName[MAXPATHLEN-1] = '\0';
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL1( "GetFileAttributesA", GetFileAttributesA, _aPathName);
} while ((ret < 0) && (__threadErrno == EINTR));
#else
ret = GetFileAttributesA((char *) __stringVal(aPathName));
if (ret < 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
if (ret >= 0) {
RETURN ( __mkSmallInteger(ret) );
}
__threadErrno = __WIN32_ERR(GetLastError());
RETURN (nil);
}
if (__isUnicode16String(aPathName)) {
wchar_t _wPathName[MAXPATHLEN+1];
int i, l;
l = __unicode16StringSize(aPathName);
if (l > MAXPATHLEN) l = MAXPATHLEN;
for (i=0; i<l; i++) {
_wPathName[i] = __unicode16StringVal(aPathName)[i];
}
_wPathName[i] = 0;
#ifdef DO_WRAP_CALLS
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL1( "GetFileAttributesW", GetFileAttributesW, _wPathName);
} while ((ret < 0) && (__threadErrno == EINTR));
#else
ret = GetFileAttributesW(_wPathName);
if (ret < 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
if (ret >= 0) {
RETURN ( __mkSmallInteger(ret) );
}
__threadErrno = __WIN32_ERR(GetLastError());
RETURN (nil);
}
%}.
^ self primitiveFailed
"
self primGetFileAttributes:'.'
self primGetFileAttributes:'bc.mak'
self primGetFileAttributes:'.' asUnicodeString
self primGetFileAttributes:'bc.mak' asUnicodeString
"
!
primIdOf:aPathName
"the actual code to return the fileNumber (i.e. inode number) of a file."
^ nil
!
primPathNameOf:aPathName
"return the pathName of the argument, aPathString,
- thats the full pathname of the directory, starting at '/'.
This method here returns nil, if the OS does not provide a
realPath library function.
Notice: if symbolic links are involved, the result may look different
from what you expect."
%{ /* xxSTACK: 16000 */
if (__isStringLike(aPathName)) {
char nameBuffer[MAXPATHLEN + 1 + MAXPATHLEN + 1];
char *pFinal;
int rslt;
#ifdef DO_WRAP_CALLS
char _aPathName[MAXPATHLEN];
strncpy(_aPathName, __stringVal(aPathName), MAXPATHLEN-1); _aPathName[MAXPATHLEN-1] = '\0';
do {
__threadErrno = 0;
rslt = STX_API_NOINT_CALL4( "GetFullPathName", GetFullPathName, _aPathName, sizeof(nameBuffer), nameBuffer, &pFinal);
} while ((rslt < 0) && (__threadErrno == EINTR));
#else
rslt = GetFullPathName(__stringVal(aPathName), sizeof(nameBuffer), nameBuffer, &pFinal);
#endif
if (rslt > 0) {
/*
* Attention: GetLongPathName is not available on old NT4.0/W95/W98
*/
static FARPROC GetLongPathName_entry = NULL;
#ifdef NO_NT4_0_COMPATIBILITY
GetLongPathName_entry = (FARPROC) GetLongPathName;
#else
if (GetLongPathName_entry == NULL) {
GetLongPathName_entry = __get_kernel32_functionAddress("GetLongPathNameA");
}
#endif /* NO_NT4_0_COMPATIBILITY */
if (GetLongPathName_entry) {
#ifdef DO_WRAP_CALLS
do {
__threadErrno = 0;
rslt = STX_API_NOINT_CALL3( "GetLongPathName", GetLongPathName_entry, nameBuffer, nameBuffer, sizeof(nameBuffer));
} while ((rslt < 0) && (__threadErrno == EINTR));
#else
rslt = (*GetLongPathName_entry)(nameBuffer, nameBuffer, sizeof(nameBuffer));
#endif
}
}
if (rslt > 0) {
RETURN ( __MKSTRING(nameBuffer) );
}
__threadErrno = __WIN32_ERR(GetLastError());
RETURN (nil);
}
if (__isUnicode16String(aPathName)) {
wchar_t nameBuffer[MAXPATHLEN + 1 + MAXPATHLEN + 1];
char *pFinal;
int rslt;
wchar_t _aPathName[MAXPATHLEN+1];
int i, l;
l = __unicode16StringSize(aPathName);
if (l > MAXPATHLEN) l = MAXPATHLEN;
for (i=0; i<l; i++) {
_aPathName[i] = __unicode16StringVal(aPathName)[i];
}
_aPathName[i] = 0;
#ifdef DO_WRAP_CALLS
do {
__threadErrno = 0;
rslt = STX_API_NOINT_CALL4( "GetFullPathNameW", GetFullPathNameW, _aPathName, MAXPATHLEN, nameBuffer, &pFinal);
} while ((rslt < 0) && (__threadErrno == EINTR));
#else
rslt = GetFullPathName(_aPathName, MAXPATHLEN, nameBuffer, &pFinal);
#endif
if (rslt > 0) {
/*
* Attention: GetLongPathName is not available on old NT4.0/W95/W98
*/
static FARPROC GetLongPathNameW_entry = NULL;
#ifdef NO_NT4_0_COMPATIBILITY
GetLongPathNameW_entry = (FARPROC) GetLongPathNameW;
#else
if (GetLongPathNameW_entry == NULL) {
GetLongPathNameW_entry = __get_kernel32_functionAddress("GetLongPathNameW");
}
#endif /* NO_NT4_0_COMPATIBILITY */
if (GetLongPathNameW_entry) {
#ifdef DO_WRAP_CALLS
do {
__threadErrno = 0;
rslt = STX_API_NOINT_CALL3( "GetLongPathNameW", GetLongPathNameW_entry, nameBuffer, nameBuffer, MAXPATHLEN);
} while ((rslt < 0) && (__threadErrno == EINTR));
#else
rslt = (*GetLongPathNameW_entry)(nameBuffer, nameBuffer, MAXPATHLEN);
#endif
}
}
if (rslt > 0) {
RETURN ( __MKU16STRING(nameBuffer) );
}
__threadErrno = __WIN32_ERR(GetLastError());
}
%}.
^ nil
"
self primPathNameOf:'.'
self primPathNameOf:'.' asUnicode16String
"
!
primSetCurrentDirectoryA:pathName
<apicall: bool "SetCurrentDirectoryA" ( pointer ) module: "kernel32.dll" >
self primitiveFailed.
"
self primSetCurrentDirectory:'C:\Dokumente und Einstellungen\User\Eigene Dateien\work5\stx\projects\smalltalk'.
"
"Created: / 27-07-2006 / 14:47:12 / fm"
!
primSetCurrentDirectoryW:pathName
<apicall: bool "SetCurrentDirectoryW" ( pointer ) module: "kernel32.dll" >
self primitiveFailed.
!
primSetFileAttributes:aPathName to:anInteger
"set the file-attributes; return true if the set did happen"
|errorNumber|
%{
int ret;
if (__isSmallInteger(anInteger)) {
if (__isStringLike(aPathName)) {
#ifdef DO_WRAP_CALLS
char _aPathName[MAXPATHLEN];
strncpy(_aPathName, __stringVal(aPathName), MAXPATHLEN-1); _aPathName[MAXPATHLEN-1] = '\0';
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL2( "SetFileAttributesA", SetFileAttributesA, _aPathName, __intVal(anInteger) );
} while ((ret < 0) && (__threadErrno == EINTR));
#else
ret = SetFileAttributesA((char *) __stringVal(aPathName), __intVal(anInteger));
if (ret < 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
if (ret >= 0) {
RETURN ( true );
}
__threadErrno = __WIN32_ERR(GetLastError());
RETURN (false);
}
if (__isUnicode16String(aPathName)) {
wchar_t _wPathName[MAXPATHLEN+1];
int i, l;
l = __unicode16StringSize(aPathName);
if (l > MAXPATHLEN) l = MAXPATHLEN;
for (i=0; i<l; i++) {
_wPathName[i] = __unicode16StringVal(aPathName)[i];
}
_wPathName[i] = 0;
#ifdef DO_WRAP_CALLS
do {
__threadErrno = 0;
ret = STX_API_NOINT_CALL2( "SetFileAttributesW", SetFileAttributesW, _wPathName, __intVal(anInteger) );
} while ((ret < 0) && (__threadErrno == EINTR));
#else
ret = SetFileAttributesW(_wPathName, __intVal(anInteger));
if (ret < 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
if (ret >= 0) {
RETURN ( true );
}
__threadErrno = __WIN32_ERR(GetLastError());
RETURN (false);
}
}
%}.
^ self primitiveFailed
!
setCurrentDirectory:pathName
pathName bitsPerCharacter == 16 ifTrue:[
self primSetCurrentDirectoryW:(pathName copyWith:(Character value:0))
] ifFalse:[
self primSetCurrentDirectoryA:pathName
].
"
self getCurrentDirectory
self setCurrentDirectory:'C:\Users\cg\work\stx\projects'
self getCurrentDirectory
self setCurrentDirectory:'C:\Users\cg\work\stx\projects\smalltalk'
"
!
setHidden:aPathName
"set the hidden attribute. Return true if it is set"
|attr|
attr := self primGetFileAttributes:aPathName.
(attr bitTest:FILE_ATTRIBUTE_HIDDEN ) ifFalse:[
^ self primSetFileAttributes:aPathName to:(attr bitOr:2).
].
^ true "/ aready set
!
setNormal:aPathName
" sets all file attributes to the normal state
e.g. set the hidden attribute to false (unhidden)"
|attr|
attr := self primGetFileAttributes:aPathName.
(attr bitTest:FILE_ATTRIBUTE_NORMAL ) ifFalse:[
^ self primSetFileAttributes:aPathName to:(attr bitOr:2).
].
^ true "/ aready set
!
setTemporary:aPathName
" set the temporary attribute of aPathName"
|attr|
attr := self primGetFileAttributes:aPathName.
(attr bitTest:FILE_ATTRIBUTE_TEMPORARY ) ifFalse:[
^ self primSetFileAttributes:aPathName to:(attr bitOr:2).
].
^ true "/ aready set
!
timeOfLastAccess:aPathName
"return the time, when the file was last accessed.
For nonexistent files, nil is returned."
"could be implemented as:
(self infoOf:aPathName) accessed
"
| i|
i := self infoOf:aPathName.
i notNil ifTrue:[^ i accessTime].
^ nil.
"
OperatingSystem timeOfLastAccess:'/'
"
!
timeOfLastChange:aPathName
"return the time, when the file was last changed.
For nonexistent files, nil is returned."
"could be implemented as:
(self infoOf:aPathName) modified
"
| i|
i := self infoOf:aPathName.
i notNil ifTrue:[^ i modificationTime].
^ nil.
"
OperatingSystem timeOfLastChange:'/'
"
!
typeOf:aPathName
"return the type of a file as a symbol; for nonexistent files,
nil is returned.
Notice: for symbolic links, the type of the pointed-to file is returned."
|i|
"
this could have been implemented as:
(self infoOf:aPathName) type
"
i := self infoOf:aPathName.
i notNil ifTrue:[^ i type].
^ nil.
"
OperatingSystem typeOf:'/'
OperatingSystem typeOf:'.'
OperatingSystem typeOf:'Make.proto'
OperatingSystem typeOf:'resources/motif.style'
"
!
volumeLabelOf: aFilenameOrString
"Answer the volume label of the disk containing aFilenameOrString."
| volName |
volName := String new: 255.
( self
getVolumeInformation: aFilenameOrString asFilename volume, '\'
name: volName
nameSize: volName size
serialNumber: nil
maximumComponentLength: nil
fileSystemFlags: nil
fileSystemName: nil
fileSystemNameSize: 0 )
ifFalse: [
Transcript showCR:'GetVolumeInformation error'.
^ ''
].
^ volName copyUpTo: Character null
"
self volumeLabelOf: 'C:\pepe.pep'
self volumeLabelOf: 'C:'
self volumeLabelOf: 'C:\\'
self volumeLabelOf: 'C:\'
"
!
volumeNameOf:aPathString
"return the volumeName of the argument, aPath
- thats the name of the volume where aPath is.
Not all OperatingSystem support/use volumes; on unix,
this always returns an empty string."
aPathString size < 2 ifTrue:[^ ''].
(aPathString at:2) == $: ifTrue:[
^ (aPathString at:1) asString.
].
^ ''
! !
!Win32OperatingSystem class methodsFor:'help support'!
openApplicationForDocument:aFilenameOrString operation:operationSymbol
"open a windows-shell application to present the document contained in aFilenameOrString.
This looks for the files extension, and is typically used to present help-files,
html documents, pdf documents etc.
operationSymbol is one of:
open
edit"
|result filename|
filename := aFilenameOrString asFilename.
result := self
shellExecute:nil
lpOperation:operationSymbol
lpFile:filename pathName
lpParameters:nil
lpDirectory:filename directory pathName
nShowCmd:#SW_SHOWNORMAL.
^ self.
"
self openApplicationForDocument: Filename currentDirectory operation:#open
self openApplicationForDocument: '..\..\doc\books\ArtOfSmalltalk\artMissing186187Fix1.pdf' asFilename operation:#open
self openApplicationForDocument: 'C:\WINDOWS\Help\clipbrd.chm' asFilename operation:#open
"
"Created: / 04-08-2006 / 18:04:52 / fm"
"Modified: / 26-01-2007 / 14:05:44 / cg"
!
openDocumentationFilename: aFilenameOrString
<resource: #obsolete>
self obsoleteMethodWarning:'call openApplicationForDocument:operation: and provide a proper error handler yourself'.
"open a windows-shell application to present the document contained in aFilenameOrString.
This looks for the files extension, and is typically used to present help-files,
html documents, pdf documents etc."
Error
handle:[:ex |
Dialog warn:'Shell execution failed'
] do:[
self openApplicationForDocument:aFilenameOrString operation:#open
]
"
self openDocumentationFilename: 'C:\WINDOWS\Help\clipbrd.chm' asFilename
self openDocumentationFilename: Filename currentDirectory
"
"Created: / 04-08-2006 / 18:04:52 / fm"
"Modified: / 26-01-2007 / 14:05:44 / cg"
!
openHelpFile: helpFilename inContextID: contextID withOwner: anApplicationModel
|ownerHandle macro|
anApplicationModel notNil ifTrue:[ownerHandle := anApplicationModel window id].
contextID isNil ifTrue: [^self primWinHelp: ownerHandle helpFile: helpFilename command: 3 "HelpIndex" dwData: nil ].
contextID isInteger ifTrue: [^self primWinHelp: ownerHandle helpFile: helpFilename command: 1 "HelpContext" dwData: contextID ].
self primWinHelp: ownerHandle helpFile: helpFilename command: 3 "HelpIndex" dwData: nil. "force the help window open if not currently"
macro := 'JumpId("', helpFilename asFilename baseName , '", "', contextID, '")'.
self primWinHelp: nil helpFile: helpFilename command: 258 "HelpCommand" dwData: macro
"
self openHelpFile: 'C:\vsw311\dapas.hlp' inContextID: 'IDH_ACI' withOwner: nil
"
!
primWinHelp: hWnd helpFile: aString command: anInteger dwData: anObject
<apicall: bool "WinHelpA" ( handle lpstr int32 lpstr ) module: "user32.dll" >
self primitiveFailed.
"
anInteger
- 1 HelpContext to open in the specified contextID
- 3 HelpIndex to open in the help index
- 258 HelpCommand execute a macro string
"
"
self primWinHelp: nil helpFile: 'C:\vsw311\dapas.hlp' command: 3 dwData: nil
"
"Modified: / 19-12-2006 / 11:48:15 / User"
! !
!Win32OperatingSystem class methodsFor:'interrupts & signals'!
blockingTest
"this is a test method;
For testing double CTRL-C in blocking primitives"
%{
while(1) {
console_printf("blocking...");
Sleep(50);
}
%}.
"
OperatingSystem blockingTest
"
!
blockingTest2
"this is a test method;
For testing single CTRL-C in blocking primitives"
%{
while(1) {
console_printf("blocking...");
STX_API_CALL1("Sleep", Sleep, 50);
}
%}.
"
OperatingSystem blockingTest2
"
!
blockingTest3
"this is a test method;
For testing single CTRL-C in non-interruptable blocking primitives.
This one should continue after typing continue in the debugger"
%{
int ret;
do {
ret = STX_API_NOINT_CALL1("Sleep", Sleep, 60000);
} while (ret < 0 && __threadErrno == EINTR);
%}.
"
OperatingSystem blockingTest3
"
!
blockingTest4
"this is a test method;
For testing single CTRL-C in non-interruptable blocking primitives.
This one start a new sleep after typing continue in the debugger"
%{
int ret;
do {
ret = STX_API_CALL1("Sleep", Sleep, 60000);
} while (ret < 0 && __threadErrno == EINTR);
%}.
"
OperatingSystem blockingTest4
"
!
defaultSignal:signalNumber
"revert to the default action on arrival of a (Unix-)signal.
Dont confuse Unix signals with smalltalk signals.
WARNING: for some signals, it is no good idea to revert to default;
for example, the default for SIGINT (i.e. ^C) is to exit; while the
default for SIGQUIT (^ \) is to dump core.
Also, NOTICE that signal numbers are not portable between unix
systems - use OperatingSystem sigXXX to get the numeric value for
a signal."
%{ /* NOCONTEXT */
if (__isSmallInteger(signalNumber)) {
#ifdef SIG_DFL
signal(__intVal(signalNumber), SIG_DFL);
RETURN (self);
#endif
}
%}.
"
this error is triggered on non-integer argument
"
^ self primitiveFailed
"you better save a snapshot image before trying this ..."
"
'if you hit ^C now, Smalltalk will exit immediately' printNewline.
OperatingSystem defaultSignal:(OperatingSystem sigINT).
1 to:1000000 do:[:i| ].
OperatingSystem enableSignal:(OperatingSystem sigINT).
'normal ^C handling again.' printNewline
"
!
disableIOInterruptsOn:fd
"turn off IO interrupts for a filedescriptor"
"
this error is triggered on non-integer argument
or if the OS does not support IO interrupts.
"
^ self primitiveFailed
!
disableSignal:signalNumber
"disable (Unix-) signal processing for signalNumber.
Dont confuse Unix signals with smalltalk signals.
WARNING: for some signals, it is no good idea to disable
them; for example, disabling the SIGINT signal turns off ^C
handling.
Also, NOTICE that signal numbers are not portable between unix
systems - use OperatingSystem sigXXX to get the numeric value for
a signal.
Use only for fully debugged stand alone applications."
%{ /* NOCONTEXT */
if (__isSmallInteger(signalNumber)) {
int sigNo = __intVal(signalNumber);
if (sigNo == 0) {
RETURN (self);
}
#ifdef SIG_IGN
signal(sigNo, SIG_IGN);
RETURN (self);
#endif
}
%}.
"
this error is triggered on non-integer argument
"
^ self primitiveFailed
"
'now, ^C is totally ignored ...' printNewline.
OperatingSystem disableSignal:(OperatingSystem sigINT).
1 to:1000000 do:[:i| ].
OperatingSystem enableSignal:(OperatingSystem sigINT).
'^C handled again.' printNewline
"
!
disableTimer
"disable timer interrupts.
WARNING:
the system will not operate correctly with timer interrupts
disabled, because no scheduling or timeouts are possible."
%{ /* NOCONTEXT */
extern void __win32ClearTimer();
__win32ClearTimer();
%}.
^ true
!
enableChildSignalInterrupts
"enable childSignal interrupts
(SIGCHLD, if the architecture supports it).
After enabling, these signals will send the message
'childSignalInterrupt' to the ChildSignalInterruptHandler object."
self enableSignal:(self sigCHLD)
!
enableIOInterruptsOn:fd
"turn on IO interrupts for a filedescriptor"
"
this error is triggered on non-integer argument
or if the system does not support SIGIO
"
^ self primitiveFailed
!
enableSignal:signalNumber
"enable (Unix-)signal processing for signalNumber.
Dont confuse Unix signals with smalltalk signals.
The signal will be delivered to one of the standard handlers
(SIGINT, SIGQUIT, etc) or to a general handler, which
sends #signalInterrupt:.
NOTICE that signal numbers are not portable between unix
systems - use OperatingSystem sigXXX to get the numeric value for
a signal."
%{ /* NOCONTEXT */
# define SIG_LIMIT 30
#if defined(SIGPOLL) && !defined(SIGIO)
# define SIGIO SIGPOLL
#endif
#ifdef SIGCHLD
# define CHILD_SIGNAL SIGCHLD
#else
# ifdef SIGCLD
# define CHILD_SIGNAL SIGCLD
# endif
#endif
int sigNr;
#if defined(SIGINT) || defined(SIGQUIT)
# ifndef __signalUserInterrupt
extern void __signalUserInterrupt(SIGHANDLER_ARG);
# endif
#endif
#ifdef SIGFPE
# ifndef __signalFpExceptionInterrupt
extern void __signalFpExceptionInterrupt(SIGHANDLER_ARG);
# endif
#endif
#ifdef SIGIO
# ifndef __signalIoInterrupt
extern void __signalIoInterrupt(SIGHANDLER_ARG);
# endif
#endif
#ifdef CHILD_SIGNAL
# ifndef __signalChildInterrupt
extern void __signalChildInterrupt(SIGHANDLER_ARG);
# endif
#endif
#ifdef SIGPIPE
# ifndef __signalPIPEInterrupt
extern void __signalPIPEInterrupt(SIGHANDLER_ARG);
# endif
#endif
#ifdef SIGBUS
# ifndef __signalBUSInterrupt
extern void __signalBUSInterrupt(SIGHANDLER_ARG);
# endif
#endif
#ifdef SIGSEGV
# ifndef __signalSEGVInterrupt
extern void __signalSEGVInterrupt(SIGHANDLER_ARG);
# endif
#endif
#if defined(SIGILL) || defined(SIGEMT)
# ifndef __signalTrapInterrupt
extern void __signalTrapInterrupt(SIGHANDLER_ARG);
# endif
#endif
#ifdef SIGALRM
# ifndef WIN32
# ifndef __signalTimerInterrupt
extern void __signalTimerInterrupt(SIGHANDLER_ARG);
# endif
# endif
#endif
#ifndef __signalInterrupt
extern void __signalInterrupt(SIGHANDLER_ARG);
#endif
void (*handler)(SIGHANDLER_ARG);
if (__isSmallInteger(signalNumber)
&& ((sigNr = __intVal(signalNumber)) >= 0)
#ifdef SIG_LIMIT
&& (sigNr <= SIG_LIMIT)
#endif
) {
/*
* standard signals are forced into standard handlers
* - all others go into general signalInterrupt
*/
#if defined(SIGPOLL) && defined(SIGIO)
if (sigNr == SIGPOLL)
sigNr = SIGIO;
#endif
switch (sigNr) {
case 0:
/* enabling a non-supported signal */
RETURN (self);
#ifdef SIGBREAK
case SIGBREAK:
#endif
#ifdef SIGINT
case SIGINT:
#endif
#ifdef SIGQUIT
case SIGQUIT:
#endif
#ifdef SIGNALDEBUGWIN32
console_printf("ConsoleSignal %d\n",sigNr);
#endif
SetConsoleCtrlHandler((PHANDLER_ROUTINE)__signalUserInterruptWIN32,TRUE);
RETURN (self);
#ifdef SIGFPE
case SIGFPE:
handler = __signalFpExceptionInterrupt;
break;
#endif
#ifdef SIGPIPE
case SIGPIPE:
handler = __signalPIPEInterrupt;
break;
#endif
#ifdef SIGBUS
case SIGBUS:
handler = __signalBUSInterrupt;
break;
#endif
#ifdef SIGSEGV
case SIGSEGV:
handler = __signalSEGVInterrupt;
break;
#endif
#ifdef SIGILL
case SIGILL:
handler = __signalTrapInterrupt;
break;
#endif
#ifdef SIGEMT
case SIGEMT:
handler = __signalTrapInterrupt;
break;
#endif
#ifdef SIGIO
case SIGIO:
handler = __signalIoInterrupt;
break;
#endif
#ifdef CHILD_SIGNAL
case CHILD_SIGNAL:
handler = __signalChildInterrupt;
break;
#endif
default:
handler = __signalInterrupt;
break;
}
{
#ifdef HAS_SIGACTION
struct sigaction act;
/*
* Do not add SA_RESTART here. A signal can cause a
* thread switch, another thread can do a garbage collect
* and restarted system calls may write into old
* (collected) addresses.
*/
act.sa_flags = SA_SIGINFO; /* <- if you add more, remember dummys at the top */
sigemptyset(&act.sa_mask);
act.sa_handler = handler;
sigaction(sigNr, &act, 0);
#else
# ifdef HAS_SIGVEC
struct sigvec vec;
vec.sv_flags = SV_INTERRUPT;
sigemptyset(&vec.sv_mask);
vec.sv_handler = handler;
sigvec(sigNr, &vec, NULL);
# else
# ifdef WIN32
# ifdef SIGNALDEBUGWIN32
console_printf("signal %d can't change handler\n",sigNr);
# endif
# else
(void) signal(sigNr, handler);
# endif
# endif
#endif
}
/*
* maybe, we should Return the old enable-status
* as boolean here ...
*/
RETURN (self);
}
%}.
"
this error is triggered on non-integer argument, or
if the signal number is not in the valid range (1..NSIG)
"
^ self primitiveFailed
!
enableTimer:milliSeconds
"setup for a timerInterrupt, to be signalled after some (real) time."
%{ /* NOCONTEXT */
extern void __win32SetTimer();
if (__isSmallInteger(milliSeconds)) {
__win32SetTimer( __intVal(milliSeconds) );
RETURN (true);
}
%}.
^ false
!
isFatalSignal:aNumber
"return true if a signal with number aNumber is a fatal signal,
i.e. some severe internal error occured"
^ (aNumber == self sigSEGV)
or:[aNumber == self sigILL
or:[aNumber == self sigBUS]]
!
killProcess:processId
"kill a process.
The process terminates immediately and has no chance to perform any cleanup actions.
WARNING: in order to avoid zombie processes (on unix),
you have to fetch the processes exitstatus with
OperatingSystem>>getStatusOfProcess:aProcessId."
self terminateProcess:processId
!
sendSignal:signalNumber to:processId
"send a unix signal to some process (maybe myself).
Returns false if any error occurred, true otherwise.
Do not confuse UNIX signals with Smalltalk-Signals.
WARNING: in order to avoid zombie processes (on unix),
you may have to fetch the processes exitstatus with
OperatingSystem>>getStatusOfProcess:aProcessId
if the signal terminates that process."
"/
"/ either invalid argument (non-integers)
"/ or not supported by OS
"/
^ self primitiveFailed
!
terminateProcess:processHandleOrPid
"terminate a process.
The process has a chance to do some cleanup.
WIN32:
Under unix, we have terminateProcess, which does a soft
terminate (giving the process a chance to cleanup) and
killProcess, which does a hard terminate.
Under WIN32, both (currently) use the TerminateProcess
function, which unconditionally causes a process to exit.
I.e. under WIN32, the process has no chance to perform cleanup.
Use it only in extreme circumstances. The state of
global data maintained by dynamic-link libraries (DLLs)
may be compromised if TerminateProcess is used.
TODO: send it a WM_QUIT instead, to allow for proper shutdown."
self terminateProcess:processHandleOrPid exitCode:0
!
terminateProcess:processHandleOrPid exitCode:exitCode
"terminate a process.
The process should have a chance to do some cleanup.
WIN32:
Under unix, we have terminateProcess, which does a soft
terminate (giving the process a chance to cleanup) and
killProcess, which does a hard terminate.
Under WIN32, both (currently) use the TerminateProcess
function, which unconditionally causes a process to exit.
I.e. under WIN32, the process has no chance to perform cleanup.
Use it only in extreme circumstances. The state of
global data maintained by dynamic-link libraries (DLLs)
may be compromised if TerminateProcess is used.
TODO: send it a WM_QUIT instead, to allow for proper shutdown."
%{
if (__isExternalAddressLike(processHandleOrPid) ) {
HANDLE hProcess = _HANDLEVal(processHandleOrPid);
if (hProcess != 0) {
TerminateProcess( hProcess, __intVal(exitCode) );
}
RETURN( true );
} else if( __isSmallInteger(processHandleOrPid) ) {
HANDLE hProcess = OpenProcess(PROCESS_TERMINATE, 0, __smallIntegerVal(processHandleOrPid));
if( hProcess != 0 ) {
TerminateProcess( hProcess, __intVal(exitCode) );
CloseHandle(hProcess);
}
RETURN( true );
}
%}.
self primitiveFailed:#invalidParameter.
"Modified: / 28.12.1995 / 15:05:37 / stefan"
"Modified: / 27.1.1998 / 20:05:47 / cg"
!
terminateProcessGroup:processGroupHandleOrPid
"terminate a process group.
The processes should have a chance to do some cleanup.
WIN32:
The processGroup is terminated by sending it a CTRL-C
using GenerateConsoleCtrlEvent."
| pid list |
list := self getAllProcesses.
list size == 0 ifTrue:[^ self ].
processGroupHandleOrPid isInteger ifTrue:[
pid := processGroupHandleOrPid
] ifFalse:[
pid := processGroupHandleOrPid pid.
].
list do:[:anOSProcess |
( anOSProcess parentPid == pid ) ifTrue:[
self terminateProcess:( anOSProcess pid ).
].
].
! !
!Win32OperatingSystem class methodsFor:'ipc support'!
makePipe
"make a pipe, return array with two filedescriptors on success,
nil on failure.
This is a lowLevel entry, not for public use.
See NonPositionableExternalStream>>makePipe for a more user-friendly, public interface."
|fd1 fd2 error|
%{
HANDLE pipeRead = (HANDLE)0;
HANDLE pipeWrite = (HANDLE)0;
SECURITY_ATTRIBUTES sa;
ZeroMemory(&sa, sizeof(SECURITY_ATTRIBUTES));
sa.nLength = sizeof(SECURITY_ATTRIBUTES);
sa.lpSecurityDescriptor = NULL;
sa.bInheritHandle = TRUE;
if( ! CreatePipe( &pipeRead, &pipeWrite, &sa, 0 ) ) {
@global(LastErrorNumber) = error = __mkSmallInteger( __WIN32_ERR(GetLastError()) );
goto out;
}
#if 1
fd1 = __MKEXTERNALADDRESS(pipeRead);
fd2 = __MKEXTERNALADDRESS(pipeWrite);
#else
/*
* make fileDescriptors from handles
*/
# ifdef PROCESSDEBUGWIN32
console_printf("piperead %x\n",pipeRead);
console_printf("pipewrite %x\n",pipeWrite);
# endif
fd1 = __mkSmallInteger(_open_osfhandle(pipeRead, O_BINARY));
fd2 = __mkSmallInteger(_open_osfhandle(pipeWrite, O_BINARY));
#endif
out:;
%}.
(fd1 notNil and:[fd2 notNil]) ifTrue:[
(fd1 ~~ -1 and:[fd2 ~~ -1]) ifTrue:[
^ Array with:fd1 with:fd2.
].
].
^ nil
! !
!Win32OperatingSystem class methodsFor:'misc'!
closePid:pid
"free pid resource"
%{
if (__isExternalAddressLike(pid) ) {
HANDLE __pid = _HANDLEVal(pid);
if (__pid != 0) {
#ifdef PROCESSDEBUGWIN32
console_printf("Close ProcessHandle %x\n", __pid);
#endif
CloseHandle(__pid);
_HANDLEVal(pid) = 0;
}
}
%}.
^ true.
"Created: 28.1.1998 / 14:23:04 / md"
"Modified: 28.1.1998 / 14:27:18 / md"
!
duplicateHandle:aHandle to:targetProcessHandle
|hMe spaceForTargetHandle rslt|
spaceForTargetHandle := ExternalLong new.
hMe := self getCurrentProcess.
rslt := self
primDuplicateHandle_hSourcProcessHandle:hMe
hSourceHandle:aHandle
hTargetProcesshandle:targetProcessHandle
lpTargetHandle:spaceForTargetHandle
dwDesiredAccess:0
bInheritHandle:false
dwOptions:2 "DUPLICATE_SAME_ACCESS".
rslt ifFalse:[
self primitiveFailed.
^ nil
].
^ ExternalAddress newAddress:(spaceForTargetHandle value).
"Created: / 18-09-2007 / 16:34:25 / cg"
!
getAllProcesses
"answer a sequence of OSProcess, all processes running in system"
|list st_perProc|
list := OrderedCollection new.
%{
#ifdef TLHELP32_H_INCLUDE
HANDLE hProcessSnap;
PROCESSENTRY32 pe32;
hProcessSnap = CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0);
if( hProcessSnap != INVALID_HANDLE_VALUE ) {
pe32.dwSize = sizeof(PROCESSENTRY32);
Process32First( hProcessSnap, & pe32 );
do {
st_perProc = __SSEND0(@global(OSProcess), @symbol(new), 0);
__SSEND1(st_perProc, @symbol(commandLine:), 0, __MKSTRING(pe32.szExeFile) );
__SSEND1(st_perProc, @symbol(pid:), 0, __mkSmallInteger(pe32.th32ProcessID) );
__SSEND1(st_perProc, @symbol(parentPid:), 0, __mkSmallInteger(pe32.th32ParentProcessID) );
__SSEND1(list, @symbol(add:), 0, st_perProc );
}
while(Process32Next(hProcessSnap,&pe32));
}
#endif /* TLHELP32_H_INCLUDE */
%}.
^ list
!
getCurrentProcess
<apicall: handle "GetCurrentProcess" ( ) module: "kernel32.dll" >
"
self getCurrentProcess
"
"Created: / 18-09-2007 / 16:32:22 / cg"
!
getPrivateProfileString:appNameString key:keyNameString default:defaultString fileName:fileName
^ self
getProfileString:appNameString key:keyNameString default:defaultString
fileName:fileName private:true
"Modified: / 27-07-2006 / 11:57:03 / fm"
!
getProfileString:appNameString key:keyNameString default:defaultString
%{
char *__appNameString = NULL;
char *__keyNameString = NULL;
char *__defaultString = NULL;
char *__returnedString = NULL;
char quickBuffer[1024];
char *usedBuffer = quickBuffer;
int bufferSize = sizeof(quickBuffer);
int nChars;
OBJ retVal;
if (__isStringLike(appNameString)) {
__appNameString = __stringVal(appNameString);
} else if (appNameString != nil)
goto primitiveFail;
if (__isStringLike(keyNameString)) {
__keyNameString = __stringVal(keyNameString);
} else if (keyNameString != nil)
goto primitiveFail;
if (__isStringLike(defaultString)) {
__defaultString = __stringVal(defaultString);
} else if (defaultString != nil)
goto primitiveFail;
do {
nChars = GetProfileString(__appNameString, __keyNameString, __defaultString, usedBuffer, bufferSize);
if (nChars >= 0) {
if (nChars != bufferSize-1) {
retVal = __MKSTRING_L(usedBuffer, nChars);
if (usedBuffer != quickBuffer) free(usedBuffer);
RETURN (retVal);
}
{
/* use a bigger buffer */
char *newBuffer;
int newBufferSize = bufferSize * 2;
newBuffer = (char *)malloc( newBufferSize );
if (usedBuffer != quickBuffer) free(usedBuffer);
usedBuffer = newBuffer;
bufferSize = newBufferSize;
}
}
} while (nChars > 0);
RETURN (nil);
primitiveFail: ;
%}.
self primitiveFailed
"Created: / 27-07-2006 / 11:54:59 / fm"
!
getProfileString:appNameString key:keyNameString default:defaultString fileName:fileName private:private
%{
char *__appNameString = NULL;
char *__keyNameString = NULL;
char *__defaultString = NULL;
char *__returnedString = NULL;
char *__fileName = NULL;
char quickBuffer[1024];
char *usedBuffer = quickBuffer;
int bufferSize = sizeof(quickBuffer);
int nChars;
OBJ retVal;
if (__isStringLike(appNameString)) {
__appNameString = __stringVal(appNameString);
} else if (appNameString != nil)
goto primitiveFail;
if (__isStringLike(keyNameString)) {
__keyNameString = __stringVal(keyNameString);
} else if (keyNameString != nil)
goto primitiveFail;
if (__isStringLike(defaultString)) {
__defaultString = __stringVal(defaultString);
} else if (defaultString != nil)
goto primitiveFail;
if (private == true) {
if (! __isStringLike(fileName)) goto primitiveFail;
__fileName = __stringVal(fileName);
}
do {
if (private == true) {
nChars = GetPrivateProfileString(__appNameString, __keyNameString, __defaultString, usedBuffer, bufferSize, __fileName);
} else {
nChars = GetProfileString(__appNameString, __keyNameString, __defaultString, usedBuffer, bufferSize);
}
if (nChars >= 0) {
if (nChars != bufferSize-1) {
retVal = __MKSTRING_L(usedBuffer, nChars);
if (usedBuffer != quickBuffer) free(usedBuffer);
RETURN (retVal);
}
{
/* use a bigger buffer */
char *newBuffer;
int newBufferSize = bufferSize * 2;
newBuffer = (char *)malloc( newBufferSize );
if (usedBuffer != quickBuffer) free(usedBuffer);
usedBuffer = newBuffer;
bufferSize = newBufferSize;
}
}
} while (nChars > 0);
RETURN (nil);
primitiveFail: ;
%}.
self primitiveFailed
"Created: / 27-07-2006 / 11:55:25 / fm"
!
hInstance
"very Win32 specific: get the HINSTANCE of the executable"
%{
extern void *__getHInstance();
RETURN (__MKEXTERNALADDRESS(__getHInstance()));
%}
"
Win32OperatingSystem hInstance
"
!
playSound:fileName
self playSound:fileName mode:1
"/#define SND_SYNC 0x0000 /* play synchronously (default) */
"/#define SND_ASYNC 0x0001 /* play asynchronously */
"/#define SND_NODEFAULT 0x0002 /* silence (!!default) if sound not found */
"/#define SND_LOOP 0x0008 /* loop the sound until next sndPlaySound */
"/#define SND_NOSTOP 0x0010 /* don't stop any currently playing sound */
"
self
playSound:'C:\Dokumente und Einstellungen\cg\work\exept\expecco\resources\sounds\start.wav'
"
"Created: / 06-11-2007 / 00:46:57 / cg"
!
playSound:fileName mode:modeInteger
<apicall: void "sndPlaySoundA" ( lpstr uint32) module: "winmm.dll" >
self primitiveFailed.
"/#define SND_SYNC 0x0000 /* play synchronously (default) */
"/#define SND_ASYNC 0x0001 /* play asynchronously */
"/#define SND_NODEFAULT 0x0002 /* silence (!!default) if sound not found */
"/#define SND_LOOP 0x0008 /* loop the sound until next sndPlaySound */
"/#define SND_NOSTOP 0x0010 /* don't stop any currently playing sound */
"
self
playSound:'C:\Dokumente und Einstellungen\cg\work\exept\expecco\resources\sounds\start.wav'
mode:1
"
"Modified: / 06-11-2007 / 00:46:27 / cg"
!
primCloseHandle: handle
<apicall: ulongReturn "CloseHandle" ( handle ) module: "kernel32.dll" >
!
primDuplicateHandle_hSourcProcessHandle:hSourceProcess
hSourceHandle:hSourceHandle
hTargetProcesshandle:hTargetProcessHandle
lpTargetHandle:lpTargetHandle
dwDesiredAccess:desiredAccess
bInheritHandle:bInheritHandle
dwOptions:dwOptions
<apicall: bool "DuplicateHandle" ( handle, handle, handle, pointer, dword, bool, dword) module: "kernel32.dll" >
self primitiveFailed.
"Created: / 18-09-2007 / 16:31:23 / cg"
!
primGetLastError
<apicall: dword "GetLastError" () module: "kernel32.dll" >
"
self primGetLastError
"
!
primSetLastError: int
<apicall: void "SetLastError" (dword) module: "kernel32.dll" >
"
self primSetLastError: 0
"
!
primWritePrivateProfileString: appName keyName: keyName profileString: profString fileName: aString
<apicall: bool "WritePrivateProfileStringA" ( lpstr lpstr lpstr lpstr ) module: "Kernel32.dll" >
^self primitiveFailed
"Created: / 18-12-2006 / 13:01:41 / User"
!
writePrivateProfileString: appName keyName: keyName profileString: profString fileName: aString
^self primWritePrivateProfileString: appName keyName: keyName profileString: profString fileName: aString
"
|profileStringToWrite recoveredProfileString|
profileStringToWrite := 'c:\vsw311'.
self writePrivateProfileString: 'PAV-Editor' keyName: 'ExportPath' profileString: profileStringToWrite fileName: 'C:\vsw311\dapas.ini'.
recoveredProfileString := self getProfileString:'PAV-Editor' key:'ExportPath' default:'@@@nil@@@' fileName:'C:\vsw311\dapas.ini' private:true.
self assert: (profileStringToWrite = recoveredProfileString).
"
"Modified: / 18-12-2006 / 13:20:20 / User"
! !
!Win32OperatingSystem class methodsFor:'mutex'!
createMutexNamed: name
"Returns an array with the handle and the lastErrorCode"
|handle lastErrorCode|
"Without clear reasons, before creating the mutex we must call #printCR"
'Creating mutex' printCR.
self primSetLastError: 0.
self primGetLastError.
handle := self primCreateMutex:nil initialOwner: true name: name.
lastErrorCode := self primGetLastError.
lastErrorCode printCR.
"/ self assert: lastErrorCode == 0.
"/ lastErrorCode == 5 "ERROR_ACCESS_DENIED" ifTrue:[Transcript showCR: 'Mutex not accesible (GetLastError = ERROR_ACCESS_DENIED)'.].
"/ lastErrorCode == 183 "ERROR_ALREADY_EXISTS" ifTrue:[Transcript showCR: 'Mutex already exists (GetLastError = ERROR_ALREADY_EXISTS)'.].
(handle isNil or:[handle address ~~ 0]) ifFalse:[
Transcript showCR: 'CreateMutexNamed: "', name printString, '" failed'.
handle := nil.
].
^ Array with: handle with: lastErrorCode
"
self createMutexNamed: '8906f5e0-54ed-11dd-9da4-001558137da0'
self releaseMutexNamed: '8906f5e0-54ed-11dd-9da4-001558137da0'
"
!
existsMutexNamed: name
|handle lastErrorCode handleAndLastErrorCode|
handleAndLastErrorCode := self createMutexNamed: name.
handle := handleAndLastErrorCode first.
lastErrorCode := handleAndLastErrorCode second.
"/ self assert: lastErrorCode == 0.
^ handle isNil
or:[lastErrorCode == 183 "ERROR_ALREADY_EXISTS"
or:[ lastErrorCode == 5 "ERROR_ACCESS_DENIED"]]
!
openMutexNamed: name
"
If the function succeeds, the return value is a handle to the mutex object.
If the function fails, the return value is NULL. To get extended error information, call GetLastError.
If a named mutex does not exist, the function fails and GetLastError returns ERROR_FILE_NOT_FOUND.
"
|handle |
handle := self primOpenMutex:nil initialOwner: true name: name.
"/ lastErrorCode := self primGetLastError.
"/ lastErrorCode = 2 ifTrue:[Transcript showCR: 'Mutex does not exist (GetLastError = ERROR_FILE_NOT_FOUND)'.].
"/ lastErrorCode = 5 ifTrue:[Transcript showCR: 'Mutex not accesible (GetLastError = ERROR_ACCESS_DENIED)'.].
(handle isNil or:[handle address ~~ 0]) ifFalse:[
Transcript showCR: 'OpenMutexNamed: "', name printString, '" failed'.
^ nil.
].
^ handle
"
self openMutexNamed: '8906f5e0-54ed-11dd-9da4-001558137da0'
"
!
primCreateMutex:lpSecurityDescriptor initialOwner: bInitialOwner name: lpName
"
If the function succeeds, the return value is a handle to the newly created mutex object.
If the function fails, the return value is NULL.
If the mutex is a named mutex and the object existed before this function call, the return value is a handle to the existing object.
"
<apicall: handle "CreateMutexA" (lpstr bool lpstr) module: "kernel32.dll" >
!
primOpenMutex:lpSecurityDescriptor initialOwner: bInitialOwner name: lpName
"
If the function succeeds, the return value is a handle to the mutex object.
If the function fails, the return value is NULL. To get extended error information, call GetLastError.
If a named mutex does not exist, the function fails and GetLastError returns ERROR_FILE_NOT_FOUND.
"
<apicall: handle "OpenMutexA" (lpstr bool lpstr) module: "kernel32.dll" >
!
primReleaseMutex: hMutex
"
If the function succeeds, the return value is nonzero.
If the function fails, the return value is zero.
"
<apicall: bool "ReleaseMutex" (handle) module: "kernel32.dll" >
!
primWaitForSingleObject: handle milliseconds: dwMilliseconds
"
If the function succeeds, the return value indicates the event that caused the function to return.
If the function fails, the return value is WAIT_FAILED ((DWORD)0xFFFFFFFF).
"
<apicall: dword "WaitForSingleObject" (handle dword) module: "kernel32.dll" >
!
releaseMutex: hMutex
"Returns true if the Mutex was released. Otherwise, returns false."
| released|
hMutex isNil ifTrue:[
Transcript showCR: 'hMutex is nil - cannot release'.
^ false
].
released := self primReleaseMutex: hMutex.
released ifFalse:[Transcript showCR: 'Release Mutex failed'.].
^ released
!
releaseMutexNamed: name
"Returns true if the Mutex was released. Otherwise, returns false."
| hMutex |
hMutex := self openMutexNamed: name.
hMutex isNil ifTrue:[
Transcript showCR: 'Cannot release Mutex named: "', name printString,'"'.
^ false
].
^ self releaseMutex: hMutex.
!
waitForSingleObject: handle
|result|
result := self primWaitForSingleObject: handle milliseconds: 500.
^ result
! !
!Win32OperatingSystem class methodsFor:'os queries'!
executableFileExtensions
"return a collection of extensions for executable program files.
Only req'd for msdos like systems ..."
^ #('com' 'exe')
"Created: 2.5.1997 / 11:42:29 / cg"
!
getDomainName
"return the DNS domain this host is in.
Notice:
not all systems support this; on some, 'unknown' is returned."
|domainName idx hostName k|
DomainName notNil ifTrue:[
^ DomainName
].
"/ sometimes, we can extract the domainName from the hostName ...
hostName := self getHostName.
hostName notEmptyOrNil ifTrue:[
idx := hostName indexOf:$..
idx ~~ 0 ifTrue:[
domainName := hostName copyFrom:idx+1.
]
].
domainName isNil ifTrue:[
domainName := self getEnvironment:'DOMAIN'.
domainName isNil ifTrue:[
domainName := self getEnvironment:'DOMAINNAME'.
].
domainName isNil ifTrue:[
"/ ok, search the registry ...
"/ under NT and later, it is found there ...
k := RegistryEntry key:'HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Services\Tcpip\Parameters'.
k notNil ifTrue:[
domainName := k valueNamed:'Domain'.
k close.
].
].
domainName isNil ifTrue:[
"/ under Win95/Win98, it is found there ...
k := RegistryEntry key:'HKEY_LOCAL_MACHINE\System\CurrentControlSet\Services\VxD\MSTCP'.
k notNil ifTrue:[
domainName := k valueNamed:'Domain'.
k close.
]
].
domainName isNil ifTrue:[
'Win32OperatingSystem [warning]: cannot find out domainName' errorPrintCR.
domainName := 'unknown'.
].
DomainName := domainName. "cache only, if it is fixed"
].
^ domainName
"
DomainName := nil.
OperatingSystem getDomainName
OperatingSystem getHostName
"
"Modified: 26.4.1996 / 10:04:54 / stefan"
!
getEnvironment:aStringOrSymbol
"get an environment string"
%{ /* NOCONTEXT */
char *env;
if (__isStringLike(aStringOrSymbol)) {
char buff[1024];
int nNeeded;
OBJ ret = nil;
nNeeded = GetEnvironmentVariable(__stringVal(aStringOrSymbol),
buff,
sizeof(buff));
if (nNeeded > sizeof(buff)) {
char *buff2;
buff2 = (char *)malloc(nNeeded);
GetEnvironmentVariable(__stringVal(aStringOrSymbol),
buff2,
nNeeded);
ret = __MKSTRING(buff2);
free(buff2);
} else {
if (nNeeded > 0) {
ret = __MKSTRING(buff);
}
}
RETURN (ret);
}
%}
.
^ nil
"
OperatingSystem getEnvironment:'LANG'
OperatingSystem getEnvironment:'LOGIN'
OperatingSystem getEnvironment:'HOME'
OperatingSystem getEnvironment:'NNTPSERVER'
OperatingSystem getEnvironment:'MAIL'
OperatingSystem getEnvironment:'PATH'
"
"Modified: / 09-01-2007 / 20:14:35 / cg"
!
getHostName
"return the hostname we are running on
- if possible, the fully qualified host name."
|hostName|
%{ /* STACK: 2048 */
char buffer[512];
DWORD buffSize = sizeof(buffer);
if (GetComputerNameEx(ComputerNameDnsFullyQualified, buffer, &buffSize) == TRUE) {
hostName = __MKSTRING(buffer);
}
%}.
^ hostName
"
OperatingSystem getHostName
"
!
getLanguage
"get the LANGUAGE setting (example: de_DE.iso8859-15@euro).
An environment value has higher preceedence than the system language setting."
|lang|
lang := self getEnvironment:'LANG'.
(lang isNil or:[lang = 'default']) ifTrue:[
"/ ok, search the registry ...
"/ under XP, it is found there ...
lang := RegistryEntry
stringValueFor:'sLanguage'
atKey:'HKEY_CURRENT_USER\Control Panel\International'.
lang notNil ifTrue:[
lang := self mapLanguage:lang.
].
].
^ lang
"
OperatingSystem getLanguage
"
"Modified: 26.4.1996 / 10:04:54 / stefan"
!
getLocaleInfo
"return a dictionary filled with values from the locale information;
Not all fields may be present, depending on the OS's setup and capabilities.
Possible fields are:
decimalPoint <String>
thousandsSep <String>
internationalCurrencySymbol <String>
currencySymbol <String>
monetaryDecimalPoint <String>
monetaryThousandsSeparator <String>
positiveSign <String>
negativeSign <String>
internationalFractionalDigits <Integer>
fractionalDigits <Integer>
positiveSignPrecedesCurrencySymbol <Boolean>
negativeSignPrecedesCurrencySymbol <Boolean>
positiveSignSeparatedBySpaceFromCurrencySymbol <Boolean>
negativeSignSeparatedBySpaceFromCurrencySymbol <Boolean>
positiveSignPosition <Symbol>
one of: #parenthesesAround,
#signPrecedes,
#signSuceeds,
#signPrecedesCurrencySymbol,
#signSuceedsCurrencySymbol
negativeSignPosition <like above>
it is up to the application to deal with undefined values.
Notice, that (for now), the system does not use this information;
it should be used by applications as required.
"
|info val|
LocaleInfo notNil ifTrue:[
"/ return the internal info; useful on systems which do not
"/ support this.
^ LocaleInfo
].
info := IdentityDictionary new.
%{
char *decimalPoint; /* something like "." (US) or "," (german) */
char *thousandsSep; /* something like "," (US) or "." (german) */
char *intCurrencySymbol; /* international currency symbol; something like "USD " "DM " */
char *currencySymbol; /* local currency symbol; something like "USD " "DM " */
char *monDecimalPoint; /* money: decimal point */
char *monThousandsSep; /* money: thousands sep */
char *positiveSign;
char *negativeSign;
int intFractDigits; /* money: international digits after decPoint */
int fractDigits; /* money: local digits after decPoint */
int csPosPrecedes; /* money: 1 if currency symbol precedes a positive value; 0 if it sceeds */
int csNegPrecedes; /* money: 1 if currency symbol precedes a negative value; 0 if it sceeds */
int csPosSepBySpace; /* money: 1 if currency symbol should be separated by a space from a positive value; 0 if no space */
int csNegSepBySpace; /* money: 1 if currency symbol should be separated by a space from a negative value; 0 if no space */
int csPosSignPosition; /* money: 0: ()'s around the value & currency symbol */
int csNegSignPosition; /* 1: sign precedes the value & currency symbol */
/* 2: sign succeeds the value & currency symbol */
/* 3: sign immediately precedes the currency symbol */
/* 4: sign immediately suceeds the currency symbol */
#if defined(HAS_LOCALECONV)
struct lconv *conf;
conf = localeconv();
if (conf) {
decimalPoint = conf->decimal_point;
thousandsSep = conf->thousands_sep;
intCurrencySymbol = conf->int_curr_symbol;
currencySymbol = conf->currency_symbol;
monDecimalPoint = conf->mon_decimal_point;
monThousandsSep = conf->mon_thousands_sep;
positiveSign = conf->positive_sign;
negativeSign = conf->negative_sign;
intFractDigits = conf->int_frac_digits;
fractDigits = conf->frac_digits;
csPosPrecedes = conf->p_cs_precedes;
csNegPrecedes = conf->n_cs_precedes;
csPosSepBySpace = conf->p_sep_by_space;
csNegSepBySpace = conf->n_sep_by_space;
csPosSignPosition = conf->p_sign_posn;
csNegSignPosition = conf->n_sign_posn;
}
#else
decimalPoint = (char *)0;
thousandsSep = (char *)0;
intCurrencySymbol = (char *)0;
currencySymbol = (char *)0;
monDecimalPoint = (char *)0;
monThousandsSep = (char *)0;
positiveSign = (char *)0;
negativeSign =(char *)0;
intFractDigits = -1;
fractDigits = -1;
csPosPrecedes = -1;
csNegPrecedes = -1;
csPosSepBySpace = -1;
csNegSepBySpace = -1;
csPosSignPosition = -1;
csNegSignPosition = -1;
#endif
if (decimalPoint) {
val = __MKSTRING(decimalPoint);
__AT_PUT_(info, @symbol(decimalPoint), val);
}
if (thousandsSep) {
val = __MKSTRING(thousandsSep);
__AT_PUT_(info, @symbol(thousandsSeparator), val);
}
if (intCurrencySymbol) {
val = __MKSTRING(intCurrencySymbol);
__AT_PUT_(info, @symbol(internationCurrencySymbol), val);
}
if (currencySymbol) {
val = __MKSTRING(currencySymbol);
__AT_PUT_(info, @symbol(currencySymbol), val);
}
if (monDecimalPoint) {
val = __MKSTRING(monDecimalPoint);
__AT_PUT_(info, @symbol(monetaryDecimalPoint), val);
}
if (monThousandsSep) {
val = __MKSTRING(monThousandsSep);
__AT_PUT_(info, @symbol(monetaryThousandsSeparator), val);
}
if (positiveSign) {
val = __MKSTRING(positiveSign);
__AT_PUT_(info, @symbol(positiveSign), val);
}
if (negativeSign) {
val = __MKSTRING(negativeSign);
__AT_PUT_(info, @symbol(negativeSign), val);
}
if (intFractDigits >= 0) {
__AT_PUT_(info, @symbol(internationalFractionalDigits), __mkSmallInteger(intFractDigits));
}
if (fractDigits >= 0) {
__AT_PUT_(info, @symbol(fractionalDigits), __mkSmallInteger(fractDigits));
}
if (csPosPrecedes >= 0) {
if (csPosPrecedes == 0) {
val = false;
} else {
val = true;
}
__AT_PUT_(info, @symbol(positiveSignPrecedesCurrencySymbol), val );
}
if (csNegPrecedes >= 0) {
if (csNegPrecedes == 0) {
val = false;
} else {
val = true;
}
__AT_PUT_(info, @symbol(negativeSignPrecedesCurrencySymbol), val );
}
if (csPosSepBySpace >= 0) {
if (csPosSepBySpace == 0) {
val = false;
} else {
val = true;
}
__AT_PUT_(info, @symbol(positiveSignSeparatedBySpaceFromCurrencySymbol), val);
}
if (csNegSepBySpace >= 0) {
if (csNegSepBySpace == 0) {
val = false;
} else {
val = true;
}
__AT_PUT_(info, @symbol(negativeSignSeparatedBySpaceFromCurrencySymbol), val);
}
switch (csPosSignPosition) {
case 0:
val = @symbol(parenthesesAround);
break;
case 1:
val = @symbol(signPrecedes);
break;
case 2:
val = @symbol(signSuceeds);
break;
case 3:
val = @symbol(signPrecedesCurrencySymbol);
break;
case 4:
val = @symbol(signSuceedsCurrencySymbol);
break;
default:
val = nil;
}
if (val != nil) {
__AT_PUT_(info, @symbol(positiveSignPosition), val);
}
switch (csNegSignPosition) {
case 0:
val = @symbol(parenthesesAround);
break;
case 1:
val = @symbol(signPrecedes);
break;
case 2:
val = @symbol(signSuceeds);
break;
case 3:
val = @symbol(signPrecedesCurrencySymbol);
break;
case 4:
val = @symbol(signSuceedsCurrencySymbol);
break;
default:
val = nil;
}
if (val != nil) {
__AT_PUT_(info, @symbol(negativeSignPosition), val);
}
%}.
^ info
"
OperatingSystem getLocaleInfo
"
"Created: 23.12.1995 / 14:19:20 / cg"
!
getNetworkMACAddresses
"return a dictionary filled with
key -> name of interface
value -> the MAC adress (as ByteArray)
for each interface
"
|info nAdapters rawData entry
name description macAddress ipAddress ipAddressMask|
rawData := Array new:50.
%{
#ifndef NO_GETADAPTERSINFO
/*
* temporary undef String to avoid a #define-conflict
* between ST/X's String and Windows String typedef
*/
# undef String
# undef Context
IP_ADAPTER_INFO AdapterInfo[32];
DWORD dwBufLen = sizeof(AdapterInfo);
DWORD dwStatus;
static FARPROC GetAdaptersInfo_entry = NULL;
/*
* Attention: GetAdaptersInfo is not available on old NT4.0/W95/W98
*/
#ifdef NO_NT4_0_COMPATIBILITY
GetAdaptersInfo_entry = (FARPROC) GetAdaptersInfo;
#else
if (GetAdaptersInfo_entry == NULL) {
GetAdaptersInfo_entry = __get_iphlpapi_functionAddress("GetAdaptersInfo");
}
#endif /* NO_NT4_0_COMPATIBILITY */
if (GetAdaptersInfo_entry) {
dwStatus = (*GetAdaptersInfo_entry)(
AdapterInfo, // [out] buffer to receive data
&dwBufLen); // [in] size of receive data buffer
if (dwStatus == ERROR_SUCCESS) {
PIP_ADAPTER_INFO pAdapterInfo = AdapterInfo;
unsigned char *bP;
int nA = 0;
bP = __byteArrayVal(rawData);
do {
name = __MKSTRING(pAdapterInfo->AdapterName);
description = __MKSTRING(pAdapterInfo->Description);
macAddress = __MKBYTEARRAY(pAdapterInfo->Address, 6);
ipAddress = __MKSTRING(pAdapterInfo->IpAddressList.IpAddress.String);
ipAddressMask = __MKSTRING(pAdapterInfo->IpAddressList.IpMask.String);
entry = __ARRAY_NEW_INT(5);
/*
* back to ST/X's String definition
*/
# ifdef __DEF_String
# define String __DEF_String
# endif
# ifdef __DEF_String
# define Context __DEF_Context
# endif
__ArrayInstPtr(entry)->a_element[0] = name; __STORE(entry, name);
__ArrayInstPtr(entry)->a_element[1] = description; __STORE(entry, description);
__ArrayInstPtr(entry)->a_element[2] = macAddress; __STORE(entry, macAddress);
__ArrayInstPtr(entry)->a_element[3] = ipAddress; __STORE(entry, ipAddress);
__ArrayInstPtr(entry)->a_element[4] = ipAddressMask; __STORE(entry, ipAddressMask);
__ArrayInstPtr(rawData)->a_element[nA] = entry; __STORE(rawData, entry);
nA++;
pAdapterInfo = pAdapterInfo->Next;
} while(pAdapterInfo);
nAdapters = __mkSmallInteger(nA);
}
}
#endif /* NO_GETADAPTERSINFO */
%}.
info := Dictionary new.
nAdapters notNil ifTrue:[
1 to:nAdapters do:[:i |
|entry name description macAddr ipAddr|
entry := rawData at:i.
name := entry at:1.
"/ description := entry at:2.
macAddr := entry at:3.
"/ ipAddr := entry at:4.
info at:name put:macAddr.
].
].
^ info
"
OperatingSystem getNetworkMACAddresses
"
!
getNumberOfProcessors
"answer the number of physical processors in the system"
%{
SYSTEM_INFO sInfo;
GetSystemInfo(&sInfo);
return __mkSmallInteger(sInfo.dwNumberOfProcessors);
%}.
"
self getNumberOfProcessors
"
!
getProcessId
"return the (unix-)processId"
%{ /* NOCONTEXT */
int pid = 0;
pid = GetCurrentProcessId() & 0x3FFFFFFF;
RETURN ( __mkSmallInteger(pid) );
%}
"
OperatingSystem getProcessId
"
!
getSystemID
"if supported by the OS, return the systemID;
a unique per machine identification.
WARNING:
not all systems support this; on some, 'unknown' is returned."
%{ /* NO_CONTEXT */
#if defined(HAS_GETHOSTID)
int runningId;
OBJ arr;
runningId = gethostid();
arr = __BYTEARRAY_UNINITIALIZED_NEW_INT(4);
*(int *)(__ByteArrayInstPtr(arr)->ba_element) = runningId;
RETURN (arr);
#endif
#if defined(HAS_SYSINFO) && defined(SI_HW_SERIAL)
{
char buffer[128];
buffer[0] = 0;
if (sysinfo(SI_HW_SERIAL, buffer, sizeof(buffer))) {
buffer[127] = 0;
if (strlen(buffer) > 0) {
RETURN(__MKSTRING(buffer));
}
}
}
#endif
%}.
^ 'unknown'
"
OperatingSystem getSystemID
"
!
getSystemInfo
"return info on the system weare running on.
If the system supports the uname system call, that info is returned;
otherwise, some simulated info is returned.
WARNING:
Do not depend on the amount and contents of the returned information, some
systems may return more/less than others. Also, the contents depends on the
OS, for example, linux returns 'ix86', while WIN32 returns 'x86'.
This method is mainly provided to augment error reports with some system
information.
(in case of system/version specific OS errors, conditional workarounds and patches
may be based upon this info).
Your application should NOT depend upon this in any way.
The returned info may (or may not) contain:
#system -> some operating system identification (irix, Linux, nt, win32s ...)
#version -> OS version (some os version identification)
#release -> OS release (3.5, 1.2.1 ...)
#node -> some host identification (hostname)
#domain -> domain name (hosts domain)
#machine -> type of machine (i586, mips ...)
win32:
#physicalRam -> total amount of physical memory
#freeRam -> amount of free memory
#swapSize -> size of swapSpace (page file)
#freeSwap -> free bytes in swapSpace
#virtualRam -> total amount of virtual memory
#freeVirtual -> amount of free virtual memory
#memoryLoad -> percentage of memory usage (useless)
"
|sys node rel ver minorVer majorVer mach dom info arch
physicalRam freeRam swapSize freeSwap
virtualRam freeVirtual memoryLoad numberOfCPUs|
%{ /* STACK: 4096 */
char vsnBuffer[32];
char *s;
int winVer, verMinor, verMajor;
DWORD vsn;
SYSTEM_INFO sysInfo;
MEMORYSTATUS memStatus;
int len;
vsn = GetVersion();
winVer = LOWORD(vsn);
verMinor = HIBYTE(winVer);
verMajor = LOBYTE(winVer);
minorVer = __mkSmallInteger(verMinor);
majorVer = __mkSmallInteger(verMajor);
if (HIWORD(vsn) & 0x8000) {
sys = @symbol(win95);
} else {
if ((verMajor > 5)
|| ((verMajor == 5) && (verMinor >= 1))) {
sys = @symbol(xp);
if (verMajor >= 6) {
sys = @symbol(vista);
if (verMinor >= 1) {
sys = @symbol(win7);
}
}
} else {
sys = @symbol(nt);
}
}
len = snprintf(vsnBuffer, sizeof(vsnBuffer), "%d.%d", verMajor, verMinor);
rel = __MKSTRING_L(vsnBuffer, len);
GetSystemInfo(&sysInfo);
memStatus.dwLength = sizeof(memStatus);
GlobalMemoryStatus(&memStatus);
memoryLoad = __MKUINT(memStatus.dwMemoryLoad);
physicalRam = __MKUINT(memStatus.dwTotalPhys);
freeRam = __MKUINT(memStatus.dwAvailPhys);
swapSize = __MKUINT(memStatus.dwTotalPageFile);
freeSwap = __MKUINT(memStatus.dwAvailPageFile);
virtualRam = __MKUINT(memStatus.dwTotalVirtual);
freeVirtual = __MKUINT(memStatus.dwAvailVirtual);
#if defined(__BORLANDC__) && (__BORLANDC__ <= 1339)
/* BorlandC3 ... */
switch (sysInfo.u.s.wProcessorArchitecture)
#else
/* MSC, BorlandC4 ... */
switch (sysInfo.wProcessorArchitecture)
#endif
{
#ifdef PROCESSOR_ARCHITECTURE_INTEL
case PROCESSOR_ARCHITECTURE_INTEL:
arch = @symbol(intel);
break;
#endif
#ifdef PROCESSOR_ARCHITECTURE_MIPS
case PROCESSOR_ARCHITECTURE_MIPS:
arch = @symbol(mips);
break;
#endif
#ifdef PROCESSOR_ARCHITECTURE_ALPHA
case PROCESSOR_ARCHITECTURE_ALPHA:
arch = @symbol(alpha);
break;
#endif
#ifdef PROCESSOR_ARCHITECTURE_ALPHA64
case PROCESSOR_ARCHITECTURE_ALPHA64:
arch = @symbol(alpha64);
break;
#endif
#ifdef PROCESSOR_ARCHITECTURE_PPC
case PROCESSOR_ARCHITECTURE_PPC:
arch = @symbol(ppc);
break;
#endif
#ifdef PROCESSOR_ARCHITECTURE_ARM
case PROCESSOR_ARCHITECTURE_ARM:
arch = @symbol(arm);
break;
#endif
#ifdef PROCESSOR_ARCHITECTURE_SHX
case PROCESSOR_ARCHITECTURE_SHX:
arch = @symbol(shx);
break;
#endif
#ifdef PROCESSOR_ARCHITECTURE_IA64
case PROCESSOR_ARCHITECTURE_IA64:
arch = @symbol(ia64);
break;
#endif
#ifdef PROCESSOR_ARCHITECTURE_MSIL
case PROCESSOR_ARCHITECTURE_MSIL:
arch = @symbol(msil);
break;
#endif
default:
arch = @symbol(unknown);
break;
}
switch (sysInfo.dwProcessorType) {
#ifdef PROCESSOR_INTEL_386
case PROCESSOR_INTEL_386:
mach = @symbol(i386);
break;
#endif
#ifdef PROCESSOR_INTEL_486
case PROCESSOR_INTEL_486:
mach = @symbol(i486);
break;
#endif
#ifdef PROCESSOR_INTEL_PENTIUM
case PROCESSOR_INTEL_PENTIUM:
mach = @symbol(i586);
break;
#endif
#ifdef PROCESSOR_INTEL_860
case PROCESSOR_INTEL_860:
mach = @symbol(i860);
break;
#endif
#ifdef PROCESSOR_INTEL_IA64
case PROCESSOR_INTEL_IA64:
mach = @symbol(ia64);
break;
#endif
#ifdef PROCESSOR_MIPS_R2000
case PROCESSOR_MIPS_R2000:
mach = @symbol(r2000);
break;
#endif
#ifdef PROCESSOR_MIPS_R3000
case PROCESSOR_MIPS_R3000:
mach = @symbol(r3000);
break;
#endif
#ifdef PROCESSOR_MIPS_R4000
case PROCESSOR_MIPS_R4000:
mach = @symbol(r4000);
break;
#endif
#ifdef PROCESSOR_ALPHA_21064
case PROCESSOR_ALPHA_21064:
mach = @symbol(alpha21064);
break;
#endif
#ifdef PROCESSOR_ARM720
case PROCESSOR_ARM720:
mach = @symbol(arm720);
break;
#endif
#ifdef PROCESSOR_ARM820
case PROCESSOR_ARM820:
mach = @symbol(arm820);
break;
#endif
#ifdef PROCESSOR_ARM920
case PROCESSOR_ARM920:
mach = @symbol(arm920);
break;
#endif
#ifdef PROCESSOR_ARM_7TDMI
case PROCESSOR_ARM_7TDMI:
mach = @symbol(arm70001);
break;
#endif
#ifdef PROCESSOR_PPC_601
case PROCESSOR_PPC_601:
mach = @symbol(ppc601);
break;
#endif
#ifdef PROCESSOR_PPC_603
case PROCESSOR_PPC_603:
mach = @symbol(ppc603);
break;
#endif
#ifdef PROCESSOR_PPC_604
case PROCESSOR_PPC_604:
mach = @symbol(ppc604);
break;
#endif
#ifdef PROCESSOR_PPC_620
case PROCESSOR_PPC_620:
mach = @symbol(ppc620);
break;
#endif
default:
sprintf(vsnBuffer, "%d", sysInfo.dwProcessorType);
mach = __MKSTRING(vsnBuffer);
break;
}
numberOfCPUs = __MKUINT(sysInfo.dwNumberOfProcessors);
%}.
node isNil ifTrue:[
node := self getHostName.
].
dom isNil ifTrue:[
dom := self getDomainName.
].
info := IdentityDictionary new.
info at:#system put:sys.
info at:#node put:node.
rel notNil ifTrue:[info at:#release put:rel].
ver notNil ifTrue:[info at:#version put:ver].
majorVer notNil ifTrue:[info at:#majorVersion put:majorVer].
minorVer notNil ifTrue:[info at:#minorVersion put:minorVer].
mach notNil ifTrue:[info at:#machine put:mach. info at:#cpuType put:mach].
arch notNil ifTrue:[info at:#architecture put:arch].
dom notNil ifTrue:[info at:#domain put:dom].
numberOfCPUs notNil ifTrue:[info at:#numberOfCPUs put:numberOfCPUs].
info at:#memoryLoad put:memoryLoad.
info at:#physicalRam put:physicalRam.
info at:#freeRam put:freeRam.
info at:#swapSize put:swapSize.
info at:#freeSwap put:freeSwap.
info at:#virtualRam put:virtualRam.
info at:#freeVirtual put:freeVirtual.
info at:#osType put:(self getOSType).
^ info
"
OperatingSystem getSystemInfo
"
!
getSystemType
"return a string giving the type of system we're running on.
This is almost the same as getOSType, but the returned string
is slightly different for some systems (i.e. iris vs. irix).
Dont depend on this - use getOSType. I dont really see a point
here ...
(except for slight differences between next/mach and other machs)"
^ #win32
"
OperatingSystem getSystemType
"
!
getThreadId
"return the (windows-) threadId"
%{ /* NOCONTEXT */
int pid = 0;
pid = GetCurrentThreadId() & 0x3FFFFFFF;
RETURN ( __mkSmallInteger(pid) );
%}
"
OperatingSystem getThreadId
"
!
getWindowsDirectory
"internal interface - only for Windows based systems.
Return the windows directory
(which - depending on the system - may be \WINNT, \WINDOWS or whatever)
On non-windows systems, nil is returned."
%{
char buffer[MAXPATHLEN];
if (GetWindowsDirectory(buffer, MAXPATHLEN)) {
RETURN (__MKSTRING(buffer));
}
%}.
^ nil
"
OperatingSystem getWindowsDirectory
"
!
getWindowsSystemDirectory
"internal interface - only for Windows based systems.
Return the windows system directory
(which - depending on the system - may be \WINNT\SYSTEM32,
\WINDOWS\SYSTEM or whatever)
On non-windows systems, nil is returned."
%{
char buffer[MAXPATHLEN];
if (GetSystemDirectory(buffer, MAXPATHLEN)) {
RETURN (__MKSTRING(buffer));
}
%}.
^ nil
"
OperatingSystem getWindowsSystemDirectory
"
!
hasConsole
"return true, if there is some kind of console available
(i.e. for proper stdIn, stdOut and stdErr handling).
This only returns false when running únder windows, and
the system is running as a pure windows application.
If false, the miniDebugger is useless and not used."
%{ /* NOCONTEXT */
extern int __getNoConsoleFlag();
RETURN ( __getNoConsoleFlag() ? false : true);
%}
!
isMSDOSlike
"return true, if the OS we're running on is msdos like
(in contrast to unix-like or vms-like).
This returns true for any of msdos, win32s, win95,
winNT and os/2."
^ true
!
isMSWINDOWSNTlike
"This returns true if running in a Windows-NT system."
%{ /* NOCONTEXT */
if (__isWinNT)
RETURN(true);
%}.
^ false.
!
isMSWINDOWSlike
"return true, if running on a MS-Windows like system.
This returns true for any of win32s, win95 and winNT."
^ true
!
isProcessIdPresent:pid
"answer true, if a process with process id pid is present, false if not.
Raise an error, if an exception occures"
|error|
%{
HANDLE processHandle;
int err;
if (__isSmallInteger(pid)) {
// assume, that synchronize needs less privilege...
processHandle = OpenProcess(SYNCHRONIZE, FALSE, __smallIntegerVal(pid));
if (processHandle) {
CloseHandle(processHandle);
RETURN(true);
}
err = GetLastError();
// we do not have access to the process (so pid does exist ;-))
if (err == ERROR_ACCESS_DENIED) {
RETURN(true);
}
// pid does not exist
if (err == ERROR_INVALID_PARAMETER) {
RETURN(false);
}
// any other error - raise signal
__threadErrno = __WIN32_ERR(err);
error = __mkSmallInteger(__threadErrno);
} else {
error = @symbol(invalidParameter);
}
%}.
self primitiveFailed:error.
"
self isProcessIdPresent:(self getProcessId)
self isProcessIdPresent:4711
self isProcessIdPresent:512
self isProcessIdPresent:'abc'
"
!
isVistaLike
"return true, if running on a Vista like system."
^ (self getSystemInfo at:#majorVersion) >= 6
"
self isVistaLike
"
!
isWin7Like
"return true, if running on a Windows7 like system."
|sysInfo major|
sysInfo := self getSystemInfo.
major := sysInfo at:#majorVersion.
^ (major == 6 and:[(sysInfo at:#minorVersion) >= 1])
or:[major > 6]
"
self isWin7Like
"
!
maxFileNameLength
"return the max number of characters in a filename.
CAVEAT:
Actually, the following is somewhat wrong - some systems
support different sizes, depending on the volume.
We return a somewhat conservative number here.
Another entry, to query for volume specific max
will be added in the future."
%{ /* NOCONTEXT */
/*
* TODO: newer systems provide a query function for this ... use it
*/
/*
* mhmh - depends on the filesystem type
*/
RETURN ( __mkSmallInteger(MAXFILELEN) );
%}
"
OperatingSystem maxFileNameLength
"
!
maxPathLength
"return the max number of characters in a pathName."
%{ /* NOCONTEXT */
RETURN ( __mkSmallInteger(MAXPATHLEN) );
%}
"
OperatingSystem maxPathLength
"
!
osName
^ 'Windows ',
(#('NT' '2000' 'XP' 'VISTA' '7')
at: (#('4.1' '5.0' '5.1' '6.0' '6.1') indexOf:OperatingSystem osVersion)
ifAbsent:OperatingSystem osVersion).
"
self osName
"
!
osVersion
^OperatingSystem getSystemInfo at:#release
"Created: / 19-01-2007 / 13:15:47 / User"
!
pathSeparator
"return the character which separates items in the PATH variable"
^ $;
"Created: 2.5.1997 / 11:36:47 / cg"
!
platformName
"return a string describing the OS platform very we're running on.
This returns #unix for all unix derivatives,
#os2, #win32, #vms or #mac for the others.
I.e. it is much less specific than getOSType or getSystemType."
^ #win32
"
OperatingSystem platformName
"
"Modified: 20.6.1997 / 17:37:26 / cg"
!
randomBytesInto:bufferOrInteger
"If bufferOrInteger is a String or a ByteArray,
fill a given buffer with random bytes from the RtlGenRandom function
and nswer the buffer.
If bufferOrInteger is a SmallInteger,
return this many bytes (max 4) as a SmallInteger.
Return nil on error (and raise PrimitiveFailure).
NOTE: This is a private interface, please use RandomGenerator!!"
%{
// BOOLEAN RtlGenRandom(
// __out PVOID RandomBuffer,
// __in ULONG RandomBufferLength
// );
static BOOL (__stdcall *P_RtlGenRandom)(PVOID , ULONG) = 0;
unsigned char *__buffer;
int __bufferSize;
int __useLocalBuffer = 0;
unsigned int __localBuffer = 0;
if (__isSmallInteger(bufferOrInteger)) {
__useLocalBuffer = 1;
__buffer = (unsigned char *)&__localBuffer;
__bufferSize = __smallIntegerVal(bufferOrInteger);
if (__bufferSize > sizeof(INT))
__bufferSize = sizeof(INT);
} else if (__isString(bufferOrInteger)) {
__buffer = __stringVal(bufferOrInteger);
__bufferSize = __stringSize(bufferOrInteger);
} else if (__isByteArray(bufferOrInteger)) {
__buffer = __byteArrayVal(bufferOrInteger);
__bufferSize = __byteArraySize(bufferOrInteger);
} else {
goto error;
}
if (P_RtlGenRandom == 0) {
HINSTANCE hAdvapi32 = LoadLibrary("advapi32.dll");
// console_printf("hAdvapi32: %x\n", hAdvapi32);
if (hAdvapi32) {
P_RtlGenRandom = (BOOL (__stdcall *)(PVOID , ULONG))
GetProcAddress(hAdvapi32, "SystemFunction036");
// console_printf("P_RtlGenRandom: %x\n", P_RtlGenRandom);
if (P_RtlGenRandom == 0) {
goto error;
}
}
}
if ((*P_RtlGenRandom)(__buffer, __bufferSize)) {
if (__useLocalBuffer) {
RETURN(__mkSmallInteger(__localBuffer & _MAX_INT));
}
RETURN (bufferOrInteger);
}
error: ;
%}.
self primitiveFailed.
^ nil
"
self randomBytesInto:(ByteArray new:4)
self randomBytesInto:4
self randomBytesInto:1
"
!
setEnvironment:aStringOrSymbol to:newValueString
"set an environment variable"
%{ /* NOCONTEXT */
char *env;
if (__isStringLike(aStringOrSymbol)
&& __isStringLike(newValueString) ) {
if (SetEnvironmentVariable(__stringVal(aStringOrSymbol), __stringVal(newValueString)) != 0) {
RETURN(self);
}
}
%}.
self primitiveFailed
"
OperatingSystem getEnvironment:'PATH'
OperatingSystem setEnvironment:'PATH' to:('c:\cygwin\bin;' , (OperatingSystem getEnvironment:'PATH'))
"
!
setLocaleInfo:anInfoDictionary
"set the locale information; if set, this oerrides the OS's settings.
(internal in ST/X only - the OS's settings remain unaffected)
See description of fields in #getLocaleInfo.
Notice, that (for now), the system does not use this information;
it should be used by applications as required."
LocaleInfo := anInfoDictionary
"
|d|
d := IdentityDictionary new.
d at:#decimalPoint put:'.' .
d at:#thousandsSeparator put:',' .
d at:#currencySymbol put:'USD' .
d at:#monetaryDecimalPoint put:'.' .
d at:#monetaryThousandsSeparator put:'.' .
d at:#fractionalDigits put:2 .
d at:#positiveSign put:'+' .
d at:#negativeSign put:'-' .
d at:#positiveSignPrecedesCurrencySymbol put:true .
d at:#negativeSignPrecedesCurrencySymbol put:false .
OperatingSystem setLocaleInfo:d
"
!
supportsChildInterrupts
"return true, if the OS supports childProcess termination signalling
through interrupts (i.e. SIGCHILD)"
%{ /* NOCONTEXT */
#if defined(SIGCHLD) || defined(SIGCLD)
RETURN (true);
#endif
%}.
^ false
"
OperatingSystem supportsChildInterrupts
"
!
supportsFileOwnerGroups
"return true, if the OS's file system supports file
group ownership - all OS's except windows do"
^ false
"Created: / 10.9.1998 / 17:57:03 / cg"
!
supportsFileOwners
"return true, if the OS's file system supports file
ownership - all OS's except windows do"
^ false
"Created: / 10.9.1998 / 17:55:16 / cg"
"Modified: / 10.9.1998 / 17:57:11 / cg"
!
supportsIOInterrupts
"return true, if the OS supports IO availability interrupts
(i.e. SIGPOLL/SIGIO).
Currently, this mechanism does not work on all
systems ...
"
^ false
"
OperatingSystem supportsIOInterrupts
"
!
supportsNonBlockingIO
"return true, if the OS supports nonblocking IO."
^ false
"
OperatingSystem supportsNonBlockingIO
"
!
supportsSelect
"return true, if the OS supports selecting on multiple
filedescriptors via select.
If false is returned, ProcessorScheduler will poll in 50ms
intervals for I/O becoming ready."
%{ /* NOCONTEXT */
# if defined(WIN32S)
RETURN (false);
# endif
%}.
^ true
"
OperatingSystem supportsSelect
"
!
supportsSelectOnPipes
"return true, if the OS supports selecting on pipe
filedescriptors via select.
If false is returned, ProcessorScheduler will poll in 50ms
intervals for I/O becoming ready."
^ false
"
OperatingSystem supportsSelectOnPipes
"
"Modified: / 14.12.1999 / 19:41:03 / cg"
"Created: / 14.12.1999 / 19:43:13 / cg"
!
supportsSelectOnSockets
"return true, if the OS supports selecting on socket
filedescriptors via select.
If false is returned, ProcessorScheduler will poll in 50ms
intervals for I/O becoming ready."
^ false
"
OperatingSystem supportsSelectOnSockets
"
"Modified: / 14.12.1999 / 19:41:03 / cg"
!
supportsVolumes
"return true, if the OS supports disk volumes.
False is returned for UNIX, true for MSDOS and VMS"
^ true
! !
!Win32OperatingSystem class methodsFor:'path queries'!
defaultPackagePath
|pPath pkgDirPath dirs p|
pPath := super defaultPackagePath.
pkgDirPath := self stxPackageDirPath.
pkgDirPath notNil ifTrue:[
"/ and also add the packageDirPath from the registry ...
dirs := pkgDirPath asCollectionOfSubstringsSeparatedBy:$;.
dirs do:[:aDir |
(pPath includes:aDir) ifFalse:[
pPath add:aDir.
]
]
] ifFalse:[
#(
'\smalltalk'
'\programme\smalltalk'
'\programme\eXept\smalltalk'
'\programs\smalltalk'
'\programs\eXept\smalltalk'
) do:[:d | |dd|
dd := d asFilename constructString:'packages'.
(pPath includes:dd) ifFalse:[
pPath add:dd.
].
dd := (d asFilename construct:Smalltalk versionString) constructString:'packages'.
(pPath includes:dd) ifFalse:[
pPath add:dd.
].
].
].
"/ under windows, the commandName includes the path - good.
p := Smalltalk commandName.
p notNil ifTrue:[
p := p asFilename directory constructString:'packages'.
(pPath includes:p) ifFalse:[
pPath add:p.
]
].
pPath := pPath select:[:p | p asFilename exists].
^ pPath
"
self defaultPackagePath
"
"Created: / 24.12.1999 / 00:10:41 / cg"
"Modified: / 24.12.1999 / 00:33:26 / cg"
!
defaultSystemPath
|sysPath libDirPath|
sysPath := super defaultSystemPath.
libDirPath := self stxLibDirPath.
libDirPath notNil ifTrue:[
"/ and also add the libDirPath from the registry ...
(sysPath includes:libDirPath) ifFalse:[
sysPath add:libDirPath
].
].
#(
'\programs\eXept\smalltalk'
'\programme\eXept\smalltalk'
'\programs\smalltalk'
'\programme\smalltalk'
'\smalltalk'
) do:[:dir |
|vsnDir|
(dir asFilename isDirectory) ifTrue:[
vsnDir := dir , '\' , Smalltalk versionString.
(vsnDir asFilename isDirectory) ifTrue:[
(sysPath includes:vsnDir) ifFalse:[
sysPath add:vsnDir.
]
].
(sysPath includes:dir) ifFalse:[
sysPath add:dir.
].
]
].
^ sysPath
"Modified: / 24.12.1999 / 00:29:18 / cg"
!
stxBinDirPath
"ask the registry for the binary directory"
|k p|
k := RegistryEntry key:'HKEY_LOCAL_MACHINE\SOFTWARE\eXept\Smalltalk/X\' , Smalltalk versionString.
k notNil ifTrue:[
p := k valueNamed:'BinDir'.
].
^ p
"
OperatingSystem stxBinDirPath
"
!
stxLibDirPath
"ask the registry for the lib directory"
(Array
with:('HKEY_LOCAL_MACHINE\SOFTWARE\eXept\Smalltalk/X\' , Smalltalk versionString)
with:('HKEY_LOCAL_MACHINE\SOFTWARE\eXept\Smalltalk/X'))
do:[:eachKeyToTry |
|k p|
k := RegistryEntry key:eachKeyToTry.
k notNil ifTrue:[
p := k valueNamed:'LibDir'.
k closeKey.
^ p
].
].
^ nil
"
OperatingSystem stxLibDirPath
"
!
stxPackageDirPath
"ask the registry for the package directory"
|k p|
k := RegistryEntry key:'HKEY_LOCAL_MACHINE\SOFTWARE\eXept\Smalltalk/X\' , Smalltalk versionString.
k notNil ifTrue:[
p := k valueNamed:'PackageDirPath'.
].
^ p
"
OperatingSystem stxPackageDirPath
"
"Created: / 24.12.1999 / 00:11:12 / cg"
! !
!Win32OperatingSystem class methodsFor:'printing support'!
abortDoc: deviceContext
^ self primAbortDoc:deviceContext
"Created: / 02-08-2006 / 12:52:12 / fm"
"Modified: / 04-10-2006 / 11:34:37 / cg"
!
closePrinter:handle
self primClosePrinter:handle
"Created: / 28-07-2006 / 17:55:59 / fm"
"Modified: / 04-10-2006 / 11:34:34 / cg"
!
createPrinterDC:driverName device:deviceName output:outputMedium initData:driverData
|h|
h := self primCreatePrinterDC:driverName device:deviceName output:outputMedium initData:driverData.
"/ h notNil ifTrue:[
"/ ^ (Win32Handle newAddress:h address) registerForFinalization
"/ ].
^ h
"
|p hPrinter driverNm mediumNm deviceNm driverData hDC|
p := self getPrinters first.
driverNm := p attributes at:#driverName.
mediumNm := p attributes at:#medium.
deviceNm := p printerName.
hPrinter := self openPrinter:deviceNm.
driverData := self getDocumentProperties:nil hPrinter:hPrinter pDeviceName:deviceNm.
self primClosePrinter:hPrinter.
hDC := self createPrinterDC:driverNm device:deviceNm output:mediumNm initData:driverData.
"
"Created: / 27-07-2006 / 16:22:34 / fm"
"Modified: / 16-04-2007 / 13:09:16 / cg"
!
deletePrinterDC: hwnd
|return|
return := self primDeletePrinterDC:hwnd .
^return
"Created: / 27-07-2006 / 16:22:34 / fm"
!
documentPropertiesDialogFor:hwndOrNil hPrinter:hPrinter pDeviceName:deviceName devModeInput:pDevModeInputOrNil
|nBytesNeeded hPrinter rslt devModeOutput|
"
#define DM_UPDATE 1
#define DM_COPY 2
#define DM_PROMPT 4
#define DM_MODIFY 8
#define DM_IN_BUFFER DM_MODIFY
#define DM_IN_PROMPT DM_PROMPT
#define DM_OUT_BUFFER DM_COPY
#define DM_OUT_DEFAULT DM_UPDATE
"
nBytesNeeded := self
primDocumentProperties:nil
hPrinter:hPrinter
pDeviceName: deviceName
pDevModeOutput:nil
pDevModeInput:nil
fMode:0.
devModeOutput := DevModeStructure new:(nBytesNeeded * 2 "never trust MS !!").
rslt := self
primDocumentProperties:nil
hPrinter:hPrinter
pDeviceName: deviceName
pDevModeOutput:devModeOutput
pDevModeInput:pDevModeInputOrNil
fMode:4+2.
^ devModeOutput
"
|h|
h := self openPrinter:'\\http://exept.exept.de:631\lj4'.
self documentPropertiesDialogFor:nil hPrinter:h pDeviceName:'\\http://exept.exept.de:631\lj4' devModeInput:nil
"
"Created: / 27-07-2006 / 15:39:21 / fm"
!
endDoc: deviceContext
^ self primEndDoc:deviceContext
"Created: / 27-07-2006 / 19:46:19 / fm"
"Modified: / 28-07-2006 / 19:23:03 / fm"
"Modified: / 04-10-2006 / 11:35:01 / cg"
!
endPage: deviceContext
^ self primEndPage:deviceContext
"Created: / 27-07-2006 / 19:45:28 / fm"
"Modified: / 28-07-2006 / 18:49:40 / fm"
"Modified: / 04-10-2006 / 11:35:06 / cg"
!
getDefaultPrinterName
"returns the default printer name"
^ (self getProfileString:'windows' key:'device' default:'')
"
OperatingSystem getDefaultPrinterName
"
"Created: / 02-08-2006 / 17:25:34 / fm"
"Modified: / 04-10-2006 / 11:35:18 / cg"
!
getDeviceCaps:hwnd index: index
^ self primGetDeviceCaps:hwnd index: index
"Created: / 28-07-2006 / 17:45:27 / fm"
"Modified: / 04-10-2006 / 11:35:29 / cg"
!
getDocumentProperties:hwndOrNil hPrinter:hPrinter pDeviceName:deviceName
|nBytesNeeded rslt devModeOutput|
"
#define DM_UPDATE 1
#define DM_COPY 2
#define DM_PROMPT 4
#define DM_MODIFY 8
#define DM_IN_BUFFER DM_MODIFY
#define DM_IN_PROMPT DM_PROMPT
#define DM_OUT_BUFFER DM_COPY
#define DM_OUT_DEFAULT DM_UPDATE
"
nBytesNeeded := self
primDocumentProperties:nil
hPrinter:hPrinter
pDeviceName: deviceName
pDevModeOutput:nil
pDevModeInput:nil
fMode:0.
nBytesNeeded < 0 ifTrue:[^nil].
devModeOutput := DevModeStructure new:(nBytesNeeded * 2 "never trust MS !!").
rslt := self
primDocumentProperties:nil
hPrinter:hPrinter
pDeviceName: deviceName
pDevModeOutput:devModeOutput
pDevModeInput:nil
fMode:2.
^ devModeOutput
"
|h|
h := self openPrinter:'\\http://exept.exept.de:631\lj4'.
self getDocumentProperties:nil hPrinter:h pDeviceName:'\\http://exept.exept.de:631\lj4'
"
"Created: / 27-07-2006 / 15:38:03 / fm"
"Modified: / 31-07-2006 / 13:02:02 / fm"
"Modified: / 04-10-2006 / 11:35:39 / cg"
!
getPrinterInfo2: printerName
|hPrinter rslt informationBuffer bytesNeeded sizeBytesArray|
hPrinter := self openPrinter: printerName .
sizeBytesArray := ByteArray new:4.
bytesNeeded := self
primGetPrinter:hPrinter
level:2
informationBuffer: nil
bufferSize: 0
bufferNeededSize:sizeBytesArray.
bytesNeeded := sizeBytesArray longAt:1.
informationBuffer := PrinterInfo2Structure new: bytesNeeded.
rslt := self
primGetPrinter:hPrinter
level:2
informationBuffer:informationBuffer
bufferSize: bytesNeeded
bufferNeededSize:sizeBytesArray.
self closePrinter: printerName.
^informationBuffer
"
OperatingSystem getPrinterInfo2:(OperatingSystem getDefaultPrinterName)
"
"Created: / 01-08-2006 / 13:47:19 / fm"
"Modified: / 04-10-2006 / 11:36:41 / cg"
!
getPrinters
"return a collection of PrinterInfos"
|printerNames collectedInfo|
printerNames := self getPrintersNames.
collectedInfo := OrderedCollection new.
printerNames do:[:eachName |
|fn vol attributes nm deviceInfo infoFields driverName|
attributes := Dictionary new.
fn := eachName asFilename.
vol := fn volume.
vol notEmptyOrNil ifTrue:[
(vol startsWith:'\\') ifTrue:[
"/ a remote printer
attributes at:#isRemotePrinter put:true.
attributes at:#remotePrinterName put:(fn baseName).
attributes at:#remotePrinterHost put:(fn directoryName copyFrom:3).
] ifFalse:[
"/ some other printer
].
] ifFalse:[
"/ some other printer
].
deviceInfo := self getProfileString:'PrinterPorts' key:eachName default:''.
"gives us smething like 'winspool,Ne00:,15,45',
which is: driverName, deviceName, ? , ?"
infoFields := deviceInfo asCollectionOfSubstringsSeparatedBy:$,.
driverName := infoFields at:1.
2 to: infoFields size by:3 do:[:i |
|medium longName|
medium := infoFields at:i.
longName := eachName ,',' , driverName , ',' , medium.
attributes at:#driverName put:driverName.
attributes at:#longName put:longName.
attributes at:#medium put:medium.
collectedInfo add:
(AbstractOperatingSystem::PrinterInfo new
printerName:eachName
attributes:attributes;
setDocumentProperties;
yourself)
].
].
^ collectedInfo
"
OperatingSystem getPrinters
"
"Created: / 27-07-2006 / 12:18:11 / fm"
"Modified: / 31-07-2006 / 13:06:04 / fm"
!
getPrintersNames
"return a collection of Printer names"
|printerNames|
printerNames := (self getProfileString:'PrinterPorts' key:nil default:'')
asCollectionOfSubstringsSeparatedBy:(Character value:0).
printerNames := printerNames reject:[:nm | nm isEmpty].
^printerNames
"
OperatingSystem getPrintersNames
"
"Created: / 27-07-2006 / 17:55:46 / fm"
"Modified: / 04-10-2006 / 11:37:41 / cg"
!
getTextExtentPoint: handle string: lpString size: pSize
^self primGetTextExtentPoint: handle string: lpString count: lpString size size: pSize
"Created: / 03-08-2006 / 11:17:17 / fm"
!
getTextMetrics: deviceContext lpMetrics: textMetrics
^self primGetTextMetrics: deviceContext lpMetrics: textMetrics
"Created: / 02-08-2006 / 16:07:07 / fm"
"Modified: / 04-10-2006 / 11:37:49 / cg"
!
openPrinter:name
|h hh rslt|
hh := ByteArray new:4.
rslt := self primOpenPrinter:name handleHolder:hh ignored:nil.
rslt ifFalse:[^ nil].
h := Win32PrinterHandle new setAddressFromBytes:hh.
h registerForFinalization.
^ h
"
self openPrinter:'\\http://exept.exept.de:631\lj4'
"
"Created: / 27-07-2006 / 14:40:41 / fm"
!
primAbortDoc:hwnd
<apicall: int32 "AbortDoc" (handle) module: "gdi32.dll" >
self primitiveFailed.
"Created: / 02-08-2006 / 12:52:32 / fm"
!
primClosePrinter:handle
<apicall: bool "ClosePrinter" ( handle ) module: "winspool.drv" >
self primitiveFailed.
"
|h hh rslt|
hh := ByteArray new:4.
rslt := self primOpenPrinter:'\\http://exept.exept.de:631\lj4' handleHolder:hh ignored: nil.
h := Win32PrinterHandle new setAddressFromBytes:hh.
self primClosePrinter: h.
"
"Created: / 27-07-2006 / 14:47:12 / fm"
!
primCreatePrinterDC:driverName device:deviceName output:outputMedium initData:driverData
<apicall: handle "CreateDCA" ( pointer pointer pointer pointer ) module: "gdi32.dll" >
self primitiveFailed.
"Modified: / 27-07-2006 / 16:26:25 / fm"
!
primDeletePrinterDC: hwnd
<apicall: bool "DeleteDC" ( handle ) module: "gdi32.dll" >
self primitiveFailed.
!
primDocumentProperties:hwndOrNil hPrinter:hPrinter pDeviceName:deviceName pDevModeOutput:pDevModeOutput pDevModeInput:pDevModeInput fMode:fMode
<apicall: int32 "DocumentPropertiesA" ( handle handle lpstr pointer pointer uint32) module: "winspool.drv" >
self primitiveFailed.
"
|hPrinter rslt|
hPrinter := self openPrinter:'\\http://exept.exept.de:631\lj4' .
rslt := self
primDocumentProperties:nil
hPrinter:hPrinter
pDeviceName: '\\http://exept.exept.de:631\lj4'
pDevModeOutput:nil
pDevModeInput:nil
fMode:0.
self halt.
"
"Created: / 27-07-2006 / 15:02:14 / fm"
!
primEndDoc:hwnd
<apicall: int32 "EndDoc" (handle) module: "gdi32.dll" >
self primitiveFailed.
"
|hPrinter rslt|
hPrinter := self openPrinter:'\\http://exept.exept.de:631\lj4' .
rslt := self
primDocumentProperties:nil
hPrinter:hPrinter
pDeviceName: '\\http://exept.exept.de:631\lj4'
pDevModeOutput:nil
pDevModeInput:nil
fMode:0.
self halt.
"
"Created: / 27-07-2006 / 19:31:31 / fm"
!
primEndPage:hwnd
<apicall: int32 "EndPage" (handle) module: "gdi32.dll" >
self primitiveFailed.
"
|hPrinter rslt|
hPrinter := self openPrinter:'\\http://exept.exept.de:631\lj4' .
rslt := self
primDocumentProperties:nil
hPrinter:hPrinter
pDeviceName: '\\http://exept.exept.de:631\lj4'
pDevModeOutput:nil
pDevModeInput:nil
fMode:0.
self halt.
"
"Created: / 27-07-2006 / 19:30:50 / fm"
!
primGetDeviceCaps:hwnd index: index
"Returns driver specific information about the device"
<apicall: int32 "GetDeviceCaps" (handle int32) module: "gdi32.dll" >
self primitiveFailed.
"Modified: / 01-08-2006 / 16:13:05 / fm"
"Modified: / 04-10-2006 / 11:38:06 / cg"
!
primGetPrinter:hwnd level:index informationBuffer:informationBuffer bufferSize:bufferSize bufferNeededSize:bufferNeededSize
<apicall: bool "GetPrinterA" (handle dword pointer dword pointer) module: "winspool.drv" >
self primitiveFailed.
"
|hPrinter rslt printerName informationBuffer bytesNeeded sizeBytesArray ok|
printerName := '\\http://exept.exept.de:631\lj4'.
hPrinter := self openPrinter: printerName .
sizeBytesArray := ByteArray new:4.
ok := self
primGetPrinter:hPrinter
level:2
informationBuffer: nil
bufferSize: 0
bufferNeededSize:sizeBytesArray.
bytesNeeded := sizeBytesArray longAt:1.
informationBuffer := PrinterInfo2Structure new: bytesNeeded.
rslt := self
primGetPrinter:hPrinter
level:2
informationBuffer:informationBuffer
bufferSize: bytesNeeded
bufferNeededSize:sizeBytesArray.
self assert: rslt.
informationBuffer inspect.
self closePrinter: printerName.
"
"Modified: / 01-08-2006 / 12:39:26 / fm"
!
primGetTextExtentPoint: handle string: lpString count: nCount size: pSize
<apicall: bool "GetTextExtentPointA" (handle pointer int32 pointer) module: "gdi32.dll" >
self primitiveFailed.
"Created: / 03-08-2006 / 11:06:23 / fm"
"Modified: / 04-10-2006 / 11:38:21 / cg"
!
primGetTextMetrics: deviceContext lpMetrics: textMetrics
<apicall: bool "GetTextMetricsA" (handle pointer) module: "gdi32.dll" >
self primitiveFailed.
"Modified: / 02-08-2006 / 16:17:51 / fm"
!
primOpenPrinter:name handleHolder:handleHolder ignored: ignored
<apicall: bool "OpenPrinterA" ( lpstr lpstr lpstr ) module: "winspool.drv" >
self primitiveFailed.
"
|h hh rslt|
hh := ByteArray new:4.
rslt := self primOpenPrinter:'\\http://exept.exept.de:631\lj4' handleHolder:hh ignored: nil.
h := Win32Handle new setAddressFromBytes:hh.
self halt.
"
"Created: / 27-07-2006 / 14:39:35 / fm"
!
primSetTextAlign:handle with:fMode
<apicall: bool "SetTextAlign" (handle int16) module: "gdi32.dll" >
"SetTextAlign"
"gdi32.dll"
self primitiveFailed.
!
primSetViewportOrgEx: h x: x y: y oldOrigin: oldOrigin
<apicall: bool "SetViewportOrgEx" (handle int16 int16 pointer) module: "gdi32.dll" >
self primitiveFailed.
!
primStartDoc:hwnd docInfo: aDocInfo
"Returns a jobId"
<apicall: int32 "StartDocA" (handle pointer) module: "gdi32.dll" >
self primitiveFailed.
"Modified: / 31-07-2006 / 11:47:10 / fm"
!
primStartPage:hwnd
<apicall: int32 "StartPage" (handle) module: "gdi32.dll" >
self primitiveFailed.
"Created: / 27-07-2006 / 19:02:12 / fm"
"Modified: / 31-07-2006 / 11:47:06 / fm"
!
setTextAlign: fMode to: handle
self primSetTextAlign: handle with: fMode
!
setViewportOrg: h x: x y: y oldOrigin: oldOrigin
self primSetViewportOrgEx: h x: x y: y oldOrigin: oldOrigin
!
startDoc: deviceContext docInfo: docInfoStruct
^self primStartDoc:deviceContext docInfo: docInfoStruct
"Created: / 27-07-2006 / 19:42:39 / fm"
"Modified: / 04-10-2006 / 11:38:30 / cg"
!
startPage: deviceContext
^self primStartPage:deviceContext
"Created: / 27-07-2006 / 19:43:56 / fm"
"Modified: / 28-07-2006 / 18:48:58 / fm"
"Modified: / 04-10-2006 / 11:38:34 / cg"
! !
!Win32OperatingSystem class methodsFor:'private'!
mapLanguage:aWindowsLanguageString
"map a windows language string to ISO languageCode_languageTerritory format"
|windowsLanguageString|
windowsLanguageString := aWindowsLanguageString asUppercase.
#('DEU' 'de_DE'
'DES' 'de_CH'
'DEA' 'de_AT'
'DAN' 'da_DA'
'ENA' 'en_AU'
'ENC' 'en_CA'
'ENG' 'en_GB'
'ENI' 'en_IR'
'ENU' 'en_US'
'ENZ' 'en_NZ'
'FRA' 'fr_FR'
'FRB' 'fr_BE'
'FRC' 'fr_CA'
'FRS' 'fr_CH'
'ITA' 'it_IT'
'ITS' 'it_CH'
'ESM' 'es_MX'
'ESN' 'es_ES'
'ESP' 'es' "Castillian"
'NLB' 'nl_BE'
'NLD' 'nl_NL'
'CSY' 'cs_CS'
'ELL' 'el_EL'
'NON' 'no_NO'
'NOR' 'no_NO'
) pairWiseDo:[:key :mappedValue|
key = windowsLanguageString ifTrue:[
^ mappedValue
]
].
"no mapping"
^ windowsLanguageString.
"
self mapLanguage:'DEU'
"
!
osProcessStatusClass
^ OSProcessStatus
"Created: / 12.6.1998 / 16:30:43 / cg"
! !
!Win32OperatingSystem class methodsFor:'regional settings'!
country
"Answer the current system value for country."
^self queryNationalProfileString: 'iCountry' default: 0
"
self country
"
"Modified: / 22-12-2006 / 16:45:32 / User"
!
countryName
"Answer the current system value for country name."
^self queryNationalProfileString: 'sCountry' default: 'Deutschland'
"
self countryName
"
"Modified: / 22-12-2006 / 16:45:32 / User"
!
dateFormat
"Answer the current system value for date format.
Answer DfMDY = Month-Day-Year
DfDMY = Day-Month-Year
DfYMD = Year-Month-Day."
|separatorString|
separatorString := self dateSeparator.
self dateFormatCode = 0 ifTrue:[^'%(mon)', separatorString, '%(day)', separatorString, '%(year)'].
self dateFormatCode = 1 ifTrue:[^'%(day)', separatorString, '%(mon)', separatorString, '%(year)'].
self dateFormatCode = 2 ifTrue:[^'%(year)', separatorString, '%(mon)', separatorString, '%(day)'].
^'%(day)', separatorString, '%(mon)', separatorString, '%(year)'
"
self dateFormat
"
"Modified: / 22-12-2006 / 16:43:30 / User"
!
dateFormatCode
"Answer the current system value for date format.
Answer DfMDY = Month-Day-Year = 0
DfDMY = Day-Month-Year = 1
DfYMD = Year-Month-Day = 2"
^self queryNationalProfileInt: 'iDate' default: 0
"
self dateFormatCode
"
"Modified: / 22-12-2006 / 16:45:53 / User"
!
dateSeparator
"Answer the current system value for date separator."
^self queryNationalProfileString: 'sDate' default: '/'
"
self dateSeparator
"
"Modified: / 22-12-2006 / 16:45:32 / User"
!
decimalSeparator
"Answer the current system value for decimal separator."
^self queryNationalProfileString: 'sDecimal' default: '.'
"
self decimalSeparator
"
"Created: / 22-12-2006 / 16:45:11 / User"
!
isDateFormatDMY
"Answer the current system value for date format.
Answer DfMDY = Month-Day-Year
DfDMY = Day-Month-Year
DfYMD = Year-Month-Day."
^self dateFormatCode = 1
"Created: / 18-01-2007 / 14:56:23 / User"
!
isDateFormatMDY
"Answer the current system value for date format.
Answer DfMDY = Month-Day-Year
DfDMY = Day-Month-Year
DfYMD = Year-Month-Day."
^self dateFormatCode = 0
"Created: / 18-01-2007 / 14:56:07 / User"
!
isDateFormatYMD
"Answer the current system value for date format.
Answer DfMDY = Month-Day-Year
DfDMY = Day-Month-Year
DfYMD = Year-Month-Day."
^self dateFormatCode = 2
"Created: / 18-01-2007 / 14:56:30 / User"
!
isTimeFormat12Hour
"Answer whether the current system time format is 12-hour."
^self timeFormat = 0
"Created: / 22-12-2006 / 16:48:17 / User"
!
primGetProfileInt: appName keyName: keyName default: anInt
<apicall: uint32 "GetProfileIntA" ( lpstr lpstr uint32) module: "kernel32.dll" >
^self primitiveFailed
"Created: / 22-12-2006 / 16:17:18 / User"
!
primGetProfileString: appName keyName: keyName default: defaultStr returnedString: retStr size: anInt
<apicall: uint32 "GetProfileStringA" ( lpstr lpstr lpstr lpstr uint32) module: "kernel32.dll" >
^self primitiveFailed
"Created: / 22-12-2006 / 16:20:23 / User"
!
queryNationalProfileInt: aKeyName default: defaultValue
| answer |
answer := self primGetProfileInt: 'Intl'
keyName: aKeyName
default: -1 asUnsigned32.
^answer = -1 asUnsigned32
ifTrue: [ defaultValue ]
ifFalse: [ answer ]
"
self queryNationalProfileInt: 'iDate' default: 0
"
"Modified: / 22-12-2006 / 16:23:05 / User"
!
queryNationalProfileString: aKeyName default: defaultValue
"Answer the string value of key aKeyName in
the [Intl] application section of the WIN.INI profile file.
Answer defaultValue if aKeyName cannot be found."
| extString result |
extString := String new: 80.
result := self primGetProfileString: 'Intl'
keyName: aKeyName
default: ''
returnedString: extString
size: extString size.
^result > 0
ifTrue: [extString copyFrom: 1 to: result]
ifFalse: [ defaultValue ]
"Created: / 22-12-2006 / 16:13:01 / User"
!
thousandsSeparator
"Answer the current system value
for the thousands separator."
^self queryNationalProfileString: 'sThousand' default: ','
"
self thousandsSeparator
"
"Created: / 22-12-2006 / 16:46:50 / User"
!
timeFormat
"Answer the current system value for time format."
^self queryNationalProfileInt: 'iTime' default: 0
"
self timeFormat
"
"Created: / 22-12-2006 / 16:48:27 / User"
! !
!Win32OperatingSystem class methodsFor:'registry support'!
registryEntry
"provide access to the registryEntry class"
^ RegistryEntry
! !
!Win32OperatingSystem class methodsFor:'serial port support'!
serialPortAccessor
"provide access to the serial port class"
^ Win32SerialPortHandle
! !
!Win32OperatingSystem class methodsFor:'shell operations'!
shellExecute:hwnd lpOperation:lpOperation lpFile:lpFile lpParameters:lpParameters lpDirectory:lpDirectory nShowCmd:nShowCmd
"Opens or prints the specified file, which can be an executable, document file, or directory.
If its a directory, an explorer window is opened (see example below).
Can be used to open a browser or viewer on html-files, pdf-files etc."
|errorNumber|
"
HINSTANCE ShellExecute(
HWND hwnd, // handle to parent window
LPCTSTR lpOperation, // pointer to string that specifies operation to perform
LPCTSTR lpFile, // pointer to filename or folder name string
LPCTSTR lpParameters, // pointer to string that specifies executable-file parameters
LPCTSTR lpDirectory, // pointer to string that specifies default directory
INT nShowCmd // whether file is shown when opened
);
"
"/ <apicall: long 'ShellExecuteA' (long char* char* char* char* ulong) module:'shell32.dll'>
%{
unsigned long __nShowCmd = 0;
if (__isSmallInteger(nShowCmd)) {
__nShowCmd = __intVal(nShowCmd);
} else {
if (nShowCmd == @symbol(SW_SHOW)) {
__nShowCmd = SW_SHOW;
} else if (nShowCmd == @symbol(SW_SHOWNORMAL)) {
__nShowCmd = SW_SHOWNORMAL;
} else if (nShowCmd == @symbol(SW_SHOWDEFAULT)) {
__nShowCmd = SW_SHOWDEFAULT;
} else if (nShowCmd == @symbol(SW_SHOWMAXIMIZED)) {
__nShowCmd = SW_SHOWMAXIMIZED;
} else if (nShowCmd == @symbol(SW_SHOWMINIMIZED)) {
__nShowCmd = SW_SHOWMINIMIZED;
} else if (nShowCmd == @symbol(SW_SHOWMINNOACTIVE)) {
__nShowCmd = SW_SHOWMINNOACTIVE;
} else if (nShowCmd == @symbol(SW_SHOWNA)) {
__nShowCmd = SW_SHOWNA;
} else if (nShowCmd == @symbol(SW_SHOWNOACTIVATE)) {
__nShowCmd = SW_SHOWNOACTIVATE;
} else if (nShowCmd == @symbol(SW_MAXIMIZE)) {
__nShowCmd = SW_MAXIMIZE;
} else if (nShowCmd == @symbol(SW_RESTORE)) {
__nShowCmd = SW_RESTORE;
} else {
goto badArgument;
}
}
if (((lpOperation == nil) || __isStringLike(lpOperation))
&& ((lpFile == nil) || __isStringLike(lpFile))
&& ((lpParameters == nil) || __isStringLike(lpParameters))
&& ((lpDirectory == nil) || __isStringLike(lpDirectory))
) {
HANDLE __hwnd = 0;
char *__lpOperation = (lpOperation != nil) ? __stringVal(lpOperation) : NULL;
char *__lpFile = (lpFile != nil) ? __stringVal(lpFile) : NULL;
char *__lpParameters = (lpParameters != nil) ? __stringVal(lpParameters) : NULL;
char *__lpDirectory = (lpDirectory != nil) ? __stringVal(lpDirectory) : NULL;
long result;
if (hwnd != nil) {
if (__isExternalAddressLike(hwnd)) {
__hwnd = (HANDLE)(__externalAddressVal(hwnd));
} else
goto badArgument;
}
result = ShellExecuteA(__hwnd, __lpOperation, __lpFile, __lpParameters, __lpDirectory, __nShowCmd);
/* MS programmers are brain damaged - here's the proof... */
if (result > 32) {
RETURN ( self ); /* OK */
}
switch (result) {
case 0:
case SE_ERR_OOM:
result = ERROR_NOT_ENOUGH_MEMORY;
break;
case SE_ERR_ACCESSDENIED:
result = ERROR_ACCESS_DENIED;
break;
case SE_ERR_FNF:
result = ERROR_FILE_NOT_FOUND;
break;
case SE_ERR_PNF:
result = ERROR_PATH_NOT_FOUND;
break;
default:
result = ERROR_INVALID_FUNCTION;
break;
}
errorNumber = __MKUINT( result );
}
badArgument: ;
%}.
errorNumber isNil ifTrue:[
self error:'invalid argument(s)'.
] ifFalse:[
(OperatingSystem errorHolderForNumber:errorNumber)
parameter:lpFile;
reportError
].
"
self
shellExecute:nil
lpOperation:'open'
lpFile:(Filename currentDirectory pathName)
lpParameters:nil
lpDirectory:(Filename currentDirectory pathName)
nShowCmd:#SW_SHOWNORMAL
self
shellExecute:nil
lpOperation:'explore'
lpFile:(Filename currentDirectory pathName)
lpParameters:nil
lpDirectory:(Filename currentDirectory pathName)
nShowCmd:#SW_SHOWNORMAL
"
"Modified: / 26-01-2007 / 14:29:21 / cg"
! !
!Win32OperatingSystem class methodsFor:'socket support'!
socketAccessor
"provide access to the socket handle class"
^ Win32SocketHandle
! !
!Win32OperatingSystem class methodsFor:'system management'!
exitWindows
"do not use - may be removed without notice"
self exitWindows:#shutdown confirm:'Do you really want to shutdown the system'
!
exitWindows:how confirm:confirmationMessageOrNil
"this method is temporary -
since my windows system menu crashes so often
(even CTRL-ALT-DEL does no longer function, but ST/X is still alive),
I added this in order to be able to shutdown w95 cleanly"
confirmationMessageOrNil notNil ifTrue:[
(Dialog confirm:confirmationMessageOrNil) ifFalse:[
^ false
].
].
%{
int flag;
if (how == @symbol(shutdown)) {
flag = EWX_SHUTDOWN;
} else if (how == @symbol(reboot)) {
flag = EWX_REBOOT;
} else if (how == @symbol(logoff)) {
flag = EWX_LOGOFF;
} else if (how == @symbol(forceShutdown)) {
flag = EWX_SHUTDOWN | EWX_FORCE;
} else if (how == @symbol(forceReboot)) {
flag = EWX_REBOOT | EWX_FORCE;
} else if (how == @symbol(forceLogoff)) {
flag = EWX_LOGOFF | EWX_FORCE;
} else {
RETURN (false);
}
RETURN ((ExitWindowsEx(flag, 0) == TRUE) ? true : false);
%}
! !
!Win32OperatingSystem class methodsFor:'time and date'!
computeOSTimeFromUTCYear:y month:m day:d hour:h minute:min second:s millisecond:millis
"return the OS-dependent time for the given time and day.
The arguments are assumed to be in UTC time."
%{
if (__bothSmallInteger(y, m)
&& __bothSmallInteger(d, h)
&& __bothSmallInteger(min, s)
&& __isSmallInteger(millis)) {
SYSTEMTIME sysTime;
FILETIME fileTime;
sysTime.wHour = __intVal(h);
sysTime.wMinute = __intVal(min);
sysTime.wSecond = __intVal(s);
sysTime.wMilliseconds = __intVal(millis);
sysTime.wYear = __intVal(y);
sysTime.wMonth = __intVal(m);
sysTime.wDay = __intVal(d);
if (SystemTimeToFileTime(&sysTime, &fileTime) == 0)
goto error;
RETURN(FileTimeToOsTime(&fileTime));
}
error:;
%}.
"Error, some invalid date ot time"
^ TimeConversionError raiseRequest
"
OperatingSystem computeOSTimeFromUTCYear:1970 month:1 day:1 hour:0 minute:0 second:0 millisecond:0
invalid:
OperatingSystem computeOSTimeFromUTCYear:1970 month:1 day:1 hour:24 minute:0 second:0 millisecond:0
"
"Modified: / 07-07-2010 / 16:56:21 / cg"
!
computeOSTimeFromYear:y month:m day:d hour:h minute:min seconds:s millis:millis
"return the OS-dependent time for the given time and day.
The arguments are assumed to be in localtime including
any daylight saving adjustings."
%{
if (__bothSmallInteger(y, m)
&& __bothSmallInteger(d, h)
&& __bothSmallInteger(min, s)
&& __isSmallInteger(millis)) {
SYSTEMTIME sysTime;
FILETIME fileTime;
sysTime.wHour = __intVal(h);
sysTime.wMinute = __intVal(min);
sysTime.wSecond = __intVal(s);
sysTime.wMilliseconds = __intVal(millis);
sysTime.wYear = __intVal(y);
sysTime.wMonth = __intVal(m);
sysTime.wDay = __intVal(d);
#if 0
/* Sorry, but this function is not supported in Win2000
- we use LocalFileTimeToFileTime */
if (TzSpecificLocalTimeToSystemTime(0, &sysTime, &sysTime) == 0)
goto error;
#endif
if (SystemTimeToFileTime(&sysTime, &fileTime) == 0)
goto error;
if (LocalFileTimeToFileTime(&fileTime, &fileTime) == 0)
goto error;
RETURN(FileTimeToOsTime(&fileTime));
}
error:;
%}.
"Error, some invalid date ot time"
^ TimeConversionError raiseRequest
"
OperatingSystem computeOSTimeFromUTCYear:1970 month:1 day:1 hour:0 minute:0 second:0 millisecond:0
OperatingSystem computeOSTimeFromYear:1970 month:1 day:1 hour:0 minute:0 seconds:0 millis:0
"
"Modified: / 07-07-2010 / 16:56:56 / cg"
!
getMicrosecondTime
"This returns a microsecond timer value.
The returned value is a 64bit value
(which is the number of microseconds since the system's boot time -
but you should not depend on that because it is system specific.
Only use for relative delta-times."
%{ /* NOCONTEXT */
static int frequencyKnown = 0;
static LONGLONG ticksPerSecond;
static LONGLONG divisor;
LONGLONG tick; // A point in time
LONGLONG micros;
if (! frequencyKnown) {
// get the high resolution counter's accuracy
QueryPerformanceFrequency(&ticksPerSecond);
frequencyKnown = 1;
divisor = ticksPerSecond / (LONGLONG)1000000;
}
// what time is it?
QueryPerformanceCounter(&tick);
micros = tick / divisor;
RETURN ( __MKLARGEINT64(1, (micros & 0xFFFFFFFF), (micros >> 32)) );
%}
"
|t1 t2 dT|
t1 := self getMicrosecondTime.
Delay waitForSeconds:1.
t2 := self getMicrosecondTime.
dT := t2 - t1
"
"
|t1 t2 dT|
t1 := self getMillisecondTime.
Delay waitForSeconds:1.
t2 := self getMillisecondTime.
dT := t2 - t1
"
!
getMillisecondTime
"This returns the millisecond timers value.
The range is limited to 0..1fffffff (i.e. the SmallInteger range) to avoid
LargeInteger arithmetic when doing timeouts and delays.
Since this value is wrapping around in regular intervals (approx. every 6.21 days),
this can only be used for short relative time deltas.
Use the millisecondTimeXXX:-methods to compare and add time deltas - these know about the wrap.
BAD DESIGN:
This should be changed to return some instance of RelativeTime,
and these computations moved there.
Don't use this method in application code since it is an internal (private)
interface. For compatibility with ST-80, use Time millisecondClockValue.
"
%{ /* NOCONTEXT */
RETURN ( __mkSmallInteger(GetTickCount() & 0x1FFFFFFF) );
%}
!
getOSTime
"This returns the OS time.
The base of the returned value is not consistent across
different OS's - some return the number of millis since jan, 1st 1970;
others since 1900. The Time classes are prepared for this, and
converts as appropriate (by using my fromOSTime: conversion methods).
Dont use this method in application code since it is an internal (private)
interface. For compatibility with ST-80, use Time>>millisecondClockValue.
or use instances of Time, Date or Timestamp to work with."
%{
FILETIME fileTime;
GetSystemTimeAsFileTime(&fileTime);
RETURN(FileTimeToOsTime(&fileTime));
%}.
"
OperatingSystem getOSTime.
Delay waitForSeconds:0.2.
OperatingSystem getOSTime printCR.
"
!
getTimezoneInformation
"get information about the OS's timezone setting. See documentation in
AbstractOperatingSystem::TimeZoneInformation for details"
|error bias standardName
standardDate_y standardDate_m standardDate_d standardDate_wd
standardDate_h standardDate_min standardDate_s
standardBias
daylightName
daylightDate_y daylightDate_m daylightDate_d daylightDate_wd
daylightDate_h daylightDate_min daylightDate_s
daylightBias info|
%{
TIME_ZONE_INFORMATION tzInfo;
DWORD retVal;
WCHAR nm[33];
retVal = GetTimeZoneInformation(&tzInfo);
switch (retVal) {
case TIME_ZONE_ID_INVALID:
error = __mkSmallInteger(__WIN32_ERR(GetLastError()));
break;
case TIME_ZONE_ID_UNKNOWN:
case TIME_ZONE_ID_STANDARD:
case TIME_ZONE_ID_DAYLIGHT:
default:
bias = __mkSmallInteger(tzInfo.Bias);
memmove(nm, tzInfo.StandardName, 32*sizeof(WCHAR));
nm[32] = 0;
standardName = __MKU16STRING(nm);
standardDate_y = __mkSmallInteger(tzInfo.StandardDate.wYear);
standardDate_m = __mkSmallInteger(tzInfo.StandardDate.wMonth);
standardDate_d = __mkSmallInteger(tzInfo.StandardDate.wDay);
standardDate_wd = __mkSmallInteger(tzInfo.StandardDate.wDayOfWeek);
standardDate_h = __mkSmallInteger(tzInfo.StandardDate.wHour);
standardDate_min = __mkSmallInteger(tzInfo.StandardDate.wMinute);
standardDate_s = __mkSmallInteger(tzInfo.StandardDate.wSecond);
standardBias = __mkSmallInteger(tzInfo.StandardBias);
memmove(nm, tzInfo.DaylightName, 32*sizeof(WCHAR));
nm[32] = 0;
daylightName = __MKU16STRING(nm);
daylightDate_y = __mkSmallInteger(tzInfo.DaylightDate.wYear);
daylightDate_m = __mkSmallInteger(tzInfo.DaylightDate.wMonth);
daylightDate_d = __mkSmallInteger(tzInfo.DaylightDate.wDay);
daylightDate_wd = __mkSmallInteger(tzInfo.DaylightDate.wDayOfWeek);
daylightDate_h = __mkSmallInteger(tzInfo.DaylightDate.wHour);
daylightDate_min = __mkSmallInteger(tzInfo.DaylightDate.wMinute);
daylightDate_s = __mkSmallInteger(tzInfo.DaylightDate.wSecond);
daylightBias = __mkSmallInteger(tzInfo.DaylightBias);
break;
}
%}.
error notNil ifTrue:[
self primitiveFailed.
].
info := AbstractOperatingSystem::TimeZoneInfo new.
info
bias:bias
name:standardName standardBias:standardBias
daylightName:daylightName daylightBias:daylightBias.
standardDate_m ~~ 0 ifTrue:[
info standardYear:standardDate_y standardMonth:standardDate_m standardDay:standardDate_d
standardWeekDay:standardDate_wd standardHour:standardDate_h standardMinute:standardDate_min.
].
daylightDate_m ~~ 0 ifTrue:[
info daylightYear:daylightDate_y daylightMonth:daylightDate_m daylightDay:daylightDate_d
daylightWeekDay:daylightDate_wd daylightHour:daylightDate_h daylightMinute:daylightDate_min.
].
^ info
"
self getTimezoneInformation
"
!
sleep:numberOfSeconds
"{ Pragma: +optSpace }"
"cease ANY action for some time. This suspends the whole smalltalk
(unix-) process for some time.
Not really useful since not even low-prio processes and interrupt
handling will run during the sleep.
Use either OperatingSystem>>millisecondDelay: (which makes all
threads sleep, but handles interrupts) or use a Delay (which makes
only the calling thread sleep)."
%{ /* NOCONTEXT */
if (__isSmallInteger(numberOfSeconds)) {
sleep(__intVal(numberOfSeconds));
RETURN ( self );
}
%}.
"
argument not integer
"
^ self primitiveFailed
"
OperatingSystem sleep:2
"
!
timeInfoFromSeconds:osSeconds milliseconds:osMilliseconds localTime:isLocalTime
"return a timeInfo structure containing values for the given
OS-second value.
An internal helper"
|year month day hours minutes seconds utcOffset dstOffset
dst yDay weekDay info reason|
%{
UINT t;
FILETIME fileTime, localFileTime;
SYSTEMTIME sysTime;
t = __longIntVal(osSeconds);
/* try cache */
{
OBJ lastSeconds, lastTimeInfo;
lastSeconds = @global(LastTimeInfoSeconds);
if (lastSeconds
&& (__longIntVal(lastSeconds) == t)
&& (@global(LastTimeInfoMilliseconds) == osMilliseconds)
&& (@global(LastTimeInfoIsLocal) == isLocalTime)
) {
lastTimeInfo = @global(LastTimeInfo);
if (lastTimeInfo != nil) {
RETURN (lastTimeInfo);
}
}
}
TimetToFileTime((time_t)t, &fileTime);
if (isLocalTime == true) {
TIME_ZONE_INFORMATION tzInfo;
int tzState;
LONGLONG longTime;
FileTimeToLocalFileTime(&fileTime, &localFileTime);
FileTimeToSystemTime(&localFileTime, &sysTime);
longTime = ((LONGLONG)fileTime.dwHighDateTime << 32) + fileTime.dwLowDateTime;
longTime -= ((LONGLONG)localFileTime.dwHighDateTime << 32) + localFileTime.dwLowDateTime;
utcOffset = __mkSmallInteger((INT)(longTime / 10000000));
if ((tzState = GetTimeZoneInformation(&tzInfo)) < 0) {
reason = @symbol(getTimeZoneFailed);
goto error;
}
dstOffset = __mkSmallInteger((tzInfo.Bias + tzInfo.DaylightBias) * 60);
} else {
FileTimeToSystemTime(&fileTime, &sysTime);
utcOffset = __mkSmallInteger(0);
}
hours = __mkSmallInteger(sysTime.wHour);
minutes = __mkSmallInteger(sysTime.wMinute);
seconds = __mkSmallInteger(sysTime.wSecond);
year = __mkSmallInteger(sysTime.wYear);
month = __mkSmallInteger(sysTime.wMonth);
day = __mkSmallInteger(sysTime.wDay);
weekDay = __mkSmallInteger(sysTime.wDayOfWeek == 0 ? 7 : sysTime.wDayOfWeek);
error:;
%}.
year isNil ifTrue:[
^ self primitiveFailed
].
info := self timeInfoClass new.
info
year:year
month:month
day:day
hours:hours
minutes:minutes
seconds:seconds
milliseconds:osMilliseconds
utcOffset:utcOffset
dst:(utcOffset = dstOffset)
dayInYear:yDay
dayInWeek:weekDay.
LastTimeInfo := info.
LastTimeInfoSeconds := osSeconds.
LastTimeInfoMilliseconds := osMilliseconds.
LastTimeInfoIsLocal := isLocalTime.
^ info
"
OperatingSystem timeInfoFromSeconds:0 milliseconds:0 localTime:false
OperatingSystem timeInfoFromSeconds:0 milliseconds:0 localTime:false
OperatingSystem timeInfoFromSeconds:3600 milliseconds:0 localTime:true
OperatingSystem timeInfoFromSeconds:Timestamp now utcSecondsSince1970 milliseconds:0 localTime:true
OperatingSystem timeInfoFromSeconds:Timestamp now utcSecondsSince1970 milliseconds:0 localTime:false
"
"Modified: / 06-07-2006 / 18:18:56 / cg"
!
utcOffset
"return the difference between UTC (Greenwich Mean Time) and the local time in seconds.
If daylight saving time applies to ourself, take that into account.
Add utcOffset to convert from local time to UTC time.
Subtract utcOffset to convert from UTC time to local time.
If utcOffset is negative, the local timezone is east of Greenwich.
If utcOffset is positive, the local timezone is west of Greenwich."
^ self getTimezoneInformation utcOffset
"
OperatingSystem utcOffset -> -7200
"
! !
!Win32OperatingSystem class methodsFor:'users & groups'!
getDesktopDirectory
"return the name of the users desktop directory (i.e. yours)."
"{ Pragma: +optSpace }"
|dir path|
path := (self registryEntry
key:'HKEY_CURRENT_USER\Software\Microsoft\Windows\CurrentVersion\Explorer\Shell Folders')
valueNamed:'Desktop'.
path isNil ifTrue:[
"Fallback"
dir := self getHomeDirectory.
dir isNil ifTrue:[ ^ nil ].
path := dir , '\Desktop'.
].
(self isValidPath:path) ifFalse:[ ^ nil ].
^ path
"
OperatingSystem getDesktopDirectory
"
"Created: / 16-05-2007 / 13:23:43 / cg"
!
getDocumentsDirectory
"return the name of the users 'Documents' directory."
"{ Pragma: +optSpace }"
|dir|
dir := (self registryEntry
key:'HKEY_CURRENT_USER\Software\Microsoft\Windows\CurrentVersion\Explorer\Shell Folders')
valueNamed:'Personal'.
dir isNil ifTrue:[
dir := self getHomeDirectory.
].
^ dir.
"
OperatingSystem getDocumentsDirectory
"
!
getEffectiveGroupID
"{ Pragma: +optSpace }"
"return the current users (thats you) effective numeric group id.
This is only different from getGroupID, if you have ST/X running
as a setuid program (of which you should think about twice)."
^ self getGroupID
"
OperatingSystem getEffectiveGroupID
"
!
getEffectiveUserID
"{ Pragma: +optSpace }"
"return the current users (thats you) effective numeric user id.
This is only different from getUserID, if you have ST/X running
as a setuid program (of which you should think about twice)."
^ self getUserID
"
OperatingSystem getEffectiveUserID
"
!
getFullUserNameFromID:userID
"{ Pragma: +optSpace }"
"return a string with the users full name - if available.
If not, return the login name as a fallBack."
|info gecos|
info := self userInfoOf:userID.
(info notNil
and:[info includesKey:#gecos]) ifTrue:[
gecos := info at:#gecos.
(gecos includes:$,) ifTrue:[
^ gecos copyTo:(gecos indexOf:$,) - 1
].
^ gecos
].
^ self getUserNameFromID:userID
"
OperatingSystem getFullUserNameFromID:0
OperatingSystem getFullUserNameFromID:(OperatingSystem getUserID)
OperatingSystem getUserNameFromID:(OperatingSystem getUserID)
"
"Modified: 15.7.1996 / 12:44:21 / cg"
!
getGroupID
"{ Pragma: +optSpace }"
"return the current users (thats you) numeric group id"
^ 1 "just a dummy for systems which do not have groupIDs"
"
OperatingSystem getGroupID
"
!
getGroupNameFromID:aNumber
"{ Pragma: +optSpace }"
"return the group-name-string for a given numeric group-id"
^ '???' "just a dummy for systems which do not have groupIDs"
"
OperatingSystem getGroupNameFromID:0
OperatingSystem getGroupNameFromID:10
"
!
getHomeDirectory
"return the name of the users home directory (i.e. yours)."
"{ Pragma: +optSpace }"
|dir|
dir := self getEnvironment:'USERPROFILE'.
dir isNil ifTrue:[
dir := '.'.
].
^ dir.
"
OperatingSystem getHomeDirectory
"
"Modified: / 16.2.2000 / 09:17:55 / cg"
!
getLoginName
"{ Pragma: +optSpace }"
"return a string with the users login name (thats yours)"
%{ /* NOCONTEXT */
static char cachedName[64];
static firstCall = 1;
#ifndef __BORLANDC__
extern char *getenv();
#endif
char *name = (char *)0;
if (firstCall) {
DWORD nameSize = sizeof(cachedName);
if (GetUserName(cachedName, &nameSize) == TRUE) {
name = cachedName;
firstCall = 0;
}
} else {
name = cachedName;
}
/*
* try a few common environment variables ...
*/
if (! name || (name[0] == 0) ) {
name = getenv("LOGIN");
if (! name || (name[0] == 0) ) {
name = getenv("LOGNAME");
if (! name || (name[0] == 0) ) {
name = getenv("USER");
}
}
}
/*
* nope - I really font know who you are.
*/
if (! name || (name[0] == 0) ) {
name = "you";
}
RETURN ( __MKSTRING(name) );
%}.
"
OperatingSystem getLoginName
"
!
getUserID
"{ Pragma: +optSpace }"
"return the current users (thats you) numeric user id"
^ 1 "just a dummy for systems which do not have userIDs"
"
OperatingSystem getUserID
"
!
getUserNameFromID:aNumber
"{ Pragma: +optSpace }"
"return the user-name-string for a given numeric user-id.
This is the login name, not the fullName."
aNumber == self getUserID ifTrue:[
^ self getLoginName
].
^ '? (' , aNumber printString , ')'
"
OperatingSystem getUserNameFromID:0
OperatingSystem getUserNameFromID:100
OperatingSystem getUserNameFromID:9991
"
!
userInfoOf:aNameOrID
"{ Pragma: +optSpace }"
"return a dictionary filled with userinfo. The argument can be either
a string with the users name or its numeric id.
Notice, that DOS systems only provide a very limited set of information.
Portable applications may want to check the systemType and NOT depend
on all keys to be present in the returned dictionary."
|info name "uid gid" dir|
info := IdentityDictionary new.
name isNil ifTrue:[
aNameOrID == self getUserID ifTrue:[
name := self getLoginName
].
].
name notNil ifTrue:[
info at:#name put:name.
] ifFalse:[
info at:#name put:'unknown'
].
dir isNil ifTrue:[
aNameOrID == self getUserID ifTrue:[
dir := self getHomeDirectory
]
].
dir notNil ifTrue:[info at:#dir put:dir].
"/ uid notNil ifTrue:[info at:#uid put:uid].
"/ gid notNil ifTrue:[info at:#gid put:gid].
^ info
"
OperatingSystem userInfoOf:'root'
OperatingSystem userInfoOf:1
OperatingSystem userInfoOf:'claus'
OperatingSystem userInfoOf:'fooBar'
OperatingSystem userInfoOf:(OperatingSystem getUserID)
"
! !
!Win32OperatingSystem class methodsFor:'waiting for events'!
blockingChildProcessWait
"return true, if childProcessWait: blocks, if no children are ready.
On those systems, we must be somewhat careful when looking out for
a subprocesses status (to avoid blocking)."
^ false
!
childProcessWait:blocking pid:pidToWait
"{ Pragma: +optSpace }"
"get status changes from child processes.
Return an OSProcessStatus or nil, if no process has terminated.
If blocking is true, we wait until a process changed state,
otherwise we return immediately.
Note that win32 needs to know the HANDLE of the process on which
it waits. In case of an error, THIS ALWAYS WAITS and then times out."
|pid status code core|
%{
DWORD endStatus;
if (__isExternalAddressLike(pidToWait) ) {
HANDLE __pidToWait = _HANDLEVal(pidToWait);
int t;
#ifdef PROCESSDEBUG_CHILDPROCESSWAIT
console_printf("childProcessWait %x b %d\n",__pidToWait,blocking==true);
#endif
t = (blocking==true) ? INFINITE : 0;
#ifdef DO_WRAP_CALLS
if (t == 0) {
/* no need for WRAP-call; does not block */
endStatus = WaitForSingleObject(__pidToWait, t);
if (endStatus < 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
} else {
do {
__threadErrno = 0;
endStatus = STX_API_CALL2( "WaitForSingleObject", WaitForSingleObject, __pidToWait, t);
} while ((endStatus < 0) && (__threadErrno == EINTR));
}
#else
endStatus = WaitForSingleObject(__pidToWait, t);
if (endStatus < 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
if ( endStatus == WAIT_TIMEOUT ) {
if (blocking==true)
status = @symbol(timeout);
else {
status = @symbol(continue);
#ifdef PROCESSDEBUG_CHILDPROCESSWAIT
console_printf("ret nil\n");
#endif
RETURN(nil);
}
} else {
status = @symbol(exit);
#ifdef PROCESSDEBUG_CHILDPROCESSWAIT
console_printf("exit\n");
#endif
if (endStatus == WAIT_OBJECT_0) {
DWORD exitCode;
if (GetExitCodeProcess(__pidToWait, &exitCode)) {
#ifdef PROCESSDEBUG_CHILDPROCESSWAIT
console_printf("exitCode: %d\n", exitCode);
#endif
if (exitCode == STILL_ACTIVE) {
RETURN(nil);
}
#ifdef PROCESSDEBUG_CHILDPROCESSWAIT
console_printf("exit %d\n", exitCode);
#endif
code = __mkSmallInteger(exitCode);
} else {
#ifdef PROCESSDEBUG_CHILDPROCESSWAIT
console_printf("GetExitCodeProcess failed\n");
#endif
code = __mkSmallInteger(GetLastError());
}
} else {
code = __mkSmallInteger(-1);
}
}
core = false;
pid = pidToWait;
}
%}.
(status isNil or:[pid isNil]) ifTrue:[
^ self primitiveFailed
].
"/ Transcript show:'pid: '; show:pid; show:' status: '; show:status;
"/ show:' code: '; show:code; show:' core:'; showCR:core.
^ OSProcessStatus pid:pid status:status code:code core:core
"
OperatingSystem childProcessWait:false
"
"Created: 5.1.1996 / 16:39:14 / stefan"
!
numAvailableForReadOn:fd
"return the number of bytes available for reading, without blocking."
^ (self readCheck:fd) ifTrue:[1] ifFalse:[0]
!
selectOnAnyReadable:readFdArray writable:writeFdArray exception:exceptFdArray withTimeOut:millis
"wait for any fd in readFdArray (an Array of integers) to become ready for
reading, writeFdArray to become ready for writing, or exceptFdArray to
arrive exceptional data (i.e. out-of-band data).
Timeout after t milliseconds or, if the timeout time is 0, immediately..
Empty fd-sets will always wait. Zero time can be used to poll file-
descriptors (i.e. to check if I/O possible without blocking).
Return first ready fd if I/O ok, nil if timed-out or interrupted."
%{
#define MAXHANDLE 128
int i;
INT t;
OBJ fd, retFd;
int ret;
int numHandles = 0;
DWORD res;
HANDLE hArray[MAXHANDLE+1];
int retArray[MAXHANDLE];
int readCount;
int writeCount;
int exceptCount;
if (__isNonNilObject(readFdArray)) {
if (! __isArrayLike(readFdArray)) goto fail;
readCount = __arraySize(readFdArray);
} else {
readCount = 0;
}
if (__isNonNilObject(writeFdArray)) {
if (! __isArrayLike(writeFdArray)) goto fail;
writeCount = __arraySize(writeFdArray);
} else {
writeCount = 0;
}
if (__isNonNilObject(exceptFdArray)) {
if (! __isArrayLike(exceptFdArray)) goto fail;
exceptCount = __arraySize(exceptFdArray);
} else {
exceptCount = 0;
}
for (i = 0; (i < readCount) && (numHandles < MAXHANDLE);i++) {
fd = __ArrayInstPtr(readFdArray)->a_element[i];
if (fd != nil) {
if (__isExternalAddressLike(fd)) {
hArray [numHandles] = _HANDLEVal(fd);
retArray[numHandles] = i;
++numHandles;
} else {
int canRead = _canReadWithoutBlocking (__intVal(fd) );
if (canRead > 0 ) {
RETURN (fd);
} else {
if (canRead < 0 ) {
@global(LastErrorNumber) = __mkSmallInteger(EBADF);
RETURN ( @symbol(error) );
}
}
}
}
}
for (i = 0; (i < writeCount) && (numHandles < MAXHANDLE);i++) {
fd = __ArrayInstPtr(writeFdArray)->a_element[i];
if (fd != nil) {
if (__isExternalAddressLike(fd)) {
hArray [numHandles] = _HANDLEVal(fd);
retArray[numHandles] = i + 10000;
++numHandles;
} else {
int canWrite = _canWriteWithoutBlocking (__intVal(fd) );
if (canWrite > 0 ) {
RETURN (fd);
} else {
if (canWrite < 0 ) {
@global(LastErrorNumber) = __mkSmallInteger(EBADF);
RETURN ( @symbol(error) );
}
}
}
}
}
for (i = 0; (i < exceptCount) && (numHandles < MAXHANDLE);i++) {
fd = __ArrayInstPtr(exceptFdArray)->a_element[i];
if (fd != nil) {
if (__isExternalAddressLike(fd)) {
hArray [numHandles] = _HANDLEVal(fd);
retArray[numHandles] = i + 20000;
++numHandles;
}
}
}
if (__isSmallInteger(millis)) {
t = __intVal(millis);
if (t <= 0 && numHandles == 0) {
RETURN (nil);
}
} else {
t = INFINITE;
}
#ifdef SELECT3DEBUGWIN32
console_printf("wait Handles = %d timeout = %d\n",numHandles, t);
#endif
res = __vmWait (numHandles, hArray, MAXHANDLE, t);
if (numHandles) {
if (res == WAIT_FAILED) {
#ifdef SELECT2DEBUGWIN32
console_printf("- error %d; ret nil\n",GetLastError());
#endif
if (__threadErrno == EINTR) {
__threadErrno = 0;
@global(LastErrorNumber) = nil;
} else {
__threadErrno = EBADF;
if (@global(InfoPrinting) == true) {
console_fprintf(stderr, "Win32OS [info]: select errno = %d\n", __threadErrno);
}
@global(LastErrorNumber) = __mkSmallInteger(__threadErrno);
RETURN ( @symbol(error) );
}
RETURN ( nil );
}
if (res == WAIT_TIMEOUT) {
#ifdef SELECT3DEBUGWIN32
console_printf("- timeOut; ret nil\n" );
#endif
goto polling;
}
if (res == numHandles) {
if (1 /* @global(InfoPrinting) == true */) {
console_fprintf(stderr, "Win32OS [info]: plugIn event has been handled\n");
}
__threadErrno = 0;
@global(LastErrorNumber) = nil;
RETURN ( nil );
}
if ((res < 0) || (res > numHandles)) {
#ifdef SELECTDEBUGWIN32
console_printf("- res=%d error1 %d\n", res, GetLastError());
#endif
__threadErrno = 0;
@global(LastErrorNumber) = nil;
RETURN ( nil );
}
ret = res;
if (ret < numHandles) {
int fd = retArray[ret];
@global(LastErrorNumber) = nil;
#ifdef SELECTDEBUGWIN32
if (ret) console_printf("wait Handles %d %d ret\n", ret, fd);
#endif
if (fd < 10000) {
RETURN ( __ArrayInstPtr(readFdArray)->a_element[fd] );
}
if (fd < 20000) {
RETURN ( __ArrayInstPtr(writeFdArray)->a_element[fd-10000] );
}
RETURN ( __ArrayInstPtr(exceptFdArray)->a_element[fd-20000] );
}
console_fprintf(stderr, "Win32OS [info]: wait Handles ret = %d error2 %d\n", ret, GetLastError());
goto fail;
} else {
polling:
for (i=0; i < readCount;i++) {
fd = __ArrayInstPtr(readFdArray)->a_element[i];
if (fd != nil) {
if (! __isExternalAddressLike(fd)) {
int canRead = _canReadWithoutBlocking (__intVal(fd));
if (canRead > 0 ) {
RETURN (fd);
} else {
if (canRead < 0 ) {
@global(LastErrorNumber) = __mkSmallInteger(EBADF);
RETURN ( @symbol(error) );
}
}
}
}
}
for (i=0; i < writeCount;i++) {
fd = __ArrayInstPtr(writeFdArray)->a_element[i];
if (fd != nil) {
if (! __isExternalAddressLike(fd)) {
int canWrite = _canWriteWithoutBlocking (__intVal(fd));
if (canWrite > 0 ) {
RETURN (fd);
} else {
if (canWrite < 0 ) {
@global(LastErrorNumber) = __mkSmallInteger(EBADF);
RETURN ( @symbol(error) );
}
}
}
}
}
@global(LastErrorNumber) = nil;
RETURN ( nil );
}
fail: ;
%}.
"
timeout argument not integer,
or any fd-array nonNil and not an array
or not supported by OS
"
^ self primitiveFailed
!
setBlocking:aBoolean on:fd
"{ Pragma: +optSpace }"
"set/clear the blocking attribute - if set (which is the default)
a read on the fileDescriptor will block until data is available.
If cleared, a read operation will immediately return with a value of
nil."
^ self "/ primitiveFailed
!
waitForMultipleObjects:fdOrHandleArray withTimeout:millis
"wait for an fd to become ready.
Timeout after t milliseconds or, if the timeout time is 0, immediately..
Zero time can be used to poll a file-
descriptors (i.e. to check if I/O possible without blocking).
Return the fd if I/O ok, nil if timed-out or interrupted."
%{
#ifndef MAXHANDLE
# define MAXHANDLE 128
#endif
INT t;
DWORD res;
HANDLE hArray[MAXHANDLE];
INT i, count;
if (! __isArrayLike(fdOrHandleArray)) {
goto fail;
}
count = __arraySize(fdOrHandleArray);
for (i=0; i<count; i++) {
OBJ fdOrHandle = __ArrayInstPtr(fdOrHandleArray)->a_element[i];
HANDLE h;
if (__isExternalAddressLike(fdOrHandle)) {
h = _HANDLEVal(fdOrHandle);
} else {
if (__isSmallInteger(fdOrHandle)) {
h = (HANDLE) _get_osfhandle (__intVal(fdOrHandle));
} else {
goto fail;
}
}
hArray[i] = h;
}
if (__isSmallInteger(millis)) {
t = __intVal(millis);
} else {
t = INFINITE;
}
#ifdef DO_WRAP_CALLS
do {
__threadErrno = 0;
res = STX_API_CALL4( "WaitForMultipleObjects", WaitForMultipleObjects, count, hArray, FALSE, t);
} while ((res < 0) && (__threadErrno == EINTR));
#else
res = WaitForMultipleObjects(count, hArray, FALSE, t);
if (res < 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
if (res == WAIT_FAILED) {
RETURN (nil);
}
if (res == WAIT_TIMEOUT) {
RETURN (nil);
}
if ((res >= WAIT_OBJECT_0) && (res < (WAIT_OBJECT_0+count))) {
RETURN (__ArrayInstPtr(fdOrHandleArray)->a_element[res-WAIT_OBJECT_0]);
}
RETURN (nil);
fail: ;
%}.
"
invalid arg,
"
^ self primitiveFailed
!
waitForSingleObject:fdOrHandle withTimeout:millis
"wait for an fd to become ready.
Timeout after t milliseconds or, if the timeout time is 0, immediately..
Zero time can be used to poll a file-
descriptors (i.e. to check if I/O possible without blocking).
Return the fd if I/O ok, nil if timed-out or interrupted."
%{
INT t;
DWORD res;
HANDLE h = NULL;
if (__isExternalAddressLike(fdOrHandle)) {
h = _HANDLEVal(fdOrHandle);
} else {
if (__isSmallInteger(fdOrHandle)) {
h = (HANDLE) _get_osfhandle (__intVal(fdOrHandle));
} else {
goto fail;
}
}
if (__isSmallInteger(millis)) {
t = __intVal(millis);
} else {
t = INFINITE;
}
#ifdef DO_WRAP_CALLS
do {
__threadErrno = 0;
res = STX_API_CALL2( "WaitForSingleObject", WaitForSingleObject, h, t);
} while ((res < 0) && (__threadErrno == EINTR));
#else
res = WaitForSingleObject(h, t);
if (res < 0) {
__threadErrno = __WIN32_ERR(GetLastError());
}
#endif
if (res == WAIT_FAILED) {
RETURN (nil);
}
if (res == WAIT_TIMEOUT) {
RETURN (nil);
}
RETURN (fdOrHandle);
fail: ;
%}.
"
invalid arg,
"
^ self primitiveFailed
! !
!Win32OperatingSystem::DevModeStructure methodsFor:'accessing'!
bitsPerPel
^ self unsignedLongAt: 1+104
"Created: / 27-07-2006 / 15:14:17 / fm"
!
collate
^ self shortAt: 1+68
"Created: / 01-08-2006 / 09:56:38 / fm"
!
collate: n
^ self shortAt: 1+68 put: n
"Created: / 01-08-2006 / 09:58:07 / fm"
!
color
^ self shortAt: 1+60
"Created: / 27-07-2006 / 15:31:25 / fm"
!
copies
^ self shortAt: 1+54
"Created: / 27-07-2006 / 15:30:52 / fm"
!
copies: n
^ self shortAt: 1+54 put: n
"Created: / 27-07-2006 / 15:36:39 / fm"
!
deviceName
^ self stringAt: 1+0 size: 32
"Created: / 27-07-2006 / 15:15:52 / fm"
!
orientation
^ self shortAt: 1+44
"Created: / 27-07-2006 / 15:34:57 / fm"
!
orientation: orientationInt
^ self shortAt: 1+44 put: orientationInt
"Created: / 27-07-2006 / 15:36:31 / fm"
!
paperLength
^ self shortAt: 1+48
"Created: / 27-07-2006 / 15:32:59 / fm"
!
paperSize
^ self shortAt: 1+46
"Created: / 27-07-2006 / 15:32:12 / fm"
!
paperSize:funnyMSPaperSizeCode
^ self shortAt: 1+46 put: funnyMSPaperSizeCode
"Created: / 27-07-2006 / 15:35:53 / fm"
!
paperWidth
^ self shortAt: 1+50
"Created: / 27-07-2006 / 15:32:25 / fm"
!
printQuality
^ self shortAt: 1+58
"Created: / 27-07-2006 / 15:33:58 / fm"
!
printQuality: qualityInteger
^ self shortAt: 1+58 put: qualityInteger
"Created: / 27-07-2006 / 15:36:20 / fm"
!
scale
^ self shortAt: 1+52
"Created: / 27-07-2006 / 15:33:31 / fm"
!
scale: percent
^ self shortAt: 1+52 put: percent
"Created: / 27-07-2006 / 15:36:05 / fm"
! !
!Win32OperatingSystem::DocInfoStructure class methodsFor:'instance creation'!
new
^super new: self sizeInBytes
"Created: / 02-08-2006 / 16:21:01 / fm"
!
sizeInBytes
^20
"Created: / 02-08-2006 / 16:21:10 / fm"
! !
!Win32OperatingSystem::DocInfoStructure methodsFor:'accessing'!
cbSize
^self longAt: 0+1
"Created: / 28-07-2006 / 18:36:02 / fm"
!
cbSize: aValue
self longAt: 0+1 put: aValue
"Created: / 28-07-2006 / 18:37:25 / fm"
!
fwType
^self longAt: 16+1
"Created: / 28-07-2006 / 18:37:44 / fm"
!
fwType: aValue
"Set a DWORD fwType"
self longAt: 16+1 put:aValue
"Created: / 28-07-2006 / 18:38:17 / fm"
!
lpszDocName
^(ExternalBytes address:(self unsignedLongAt: 4+1)) stringAt:1
"Created: / 03-08-2006 / 15:06:56 / fm"
!
lpszDocName: aValue
^self unsignedLongAt: 4+1 put: aValue
"Created: / 03-08-2006 / 15:08:32 / fm"
!
lpszOutput
^(ExternalBytes address:(self unsignedLongAt: 8+1)) stringAt:1
"Created: / 03-08-2006 / 15:07:52 / fm"
!
lpszOutput: aValue
^self unsignedLongAt: 8+1 put: aValue
"Created: / 03-08-2006 / 15:08:49 / fm"
! !
!Win32OperatingSystem::FileStatusInfo class methodsFor:'instance creation'!
type:t mode:m uid:u gid:g size:s id:i accessed:aT modified:mT created:cT sourcePath:lP fullName:fullName alternativeName:name2
^ self basicNew
type:t mode:m uid:u gid:g size:s
id:i accessed:aT modified:mT created:cT
sourcePath:lP
fullName:fullName
alternativeName:name2
! !
!Win32OperatingSystem::FileStatusInfo methodsFor:'accessing'!
accessTime
"return accessed"
^ accessed
"Created: / 1.2.2002 / 11:05:49 / cg"
!
alternativeName
"return the files other name (DOS name on windows).
Nil if there is no other name"
|path idx|
path := self alternativePathName.
path notNil ifTrue:[
idx := path lastIndexOf:$\ startingAt:path size-1.
idx ~~ 0 ifTrue:[
path := path copyFrom:(idx+1).
].
].
^ path
"
'C:\' asFilename info alternativeName
'C:\Dokumente und Einstellungen\' asFilename info alternativeName
'C:\Dokumente und Einstellungen' asFilename info alternativeName
"
!
alternativePathName
"return the files real name (non-DOS name on windows).
Nil if there is no other name"
"/ access lazily...
alternativePathName isNil ifTrue:[
alternativePathName := (OperatingSystem getShortPathName:sourcePath) asSingleByteString.
].
^ alternativePathName
"
'C:\' asFilename info alternativePathName
'C:\Dokumente und Einstellungen' asFilename info alternativePathName
"
!
creationTime
^ created
!
fileSize
"return size"
^ size
"Created: / 1.2.2002 / 11:06:15 / cg"
!
fullName
"return the files real name (non-DOS name on windows).
Nil if there is no other name"
|path idx|
path := self fullPathName.
path notNil ifTrue:[
idx := path lastIndexOf:$\ startingAt:path size-1.
idx ~~ 0 ifTrue:[
path := path copyFrom:(idx+1).
].
].
^ path
"
'\' asFilename info fullName
'C:\' asFilename info fullName
'C:\Dokumente und Einstellungen' asFilename info fullName
"
!
fullPathName
"return the files real name (non-DOS name on windows).
Nil if there is no other name"
"/ access lazily...
fullPathName isNil ifTrue:[
fullPathName := (OperatingSystem getLongPathName:sourcePath) asSingleByteStringIfPossible.
].
^ fullPathName
"
'C:\' asFilename info fullPathName
'C:\Dokumente und Einstellungen' asFilename info fullPathName
"
!
gid
"return gid"
^ gid
!
id
"return id"
^ id
!
linkTargetPath
"for symbolic links only: return the path where the symbolic link points to"
"/ access lazily...
linkTargetPath isNil ifTrue:[
type == #symbolicLink ifTrue:[
linkTargetPath := OperatingSystem getLinkTarget:sourcePath.
]
].
^ linkTargetPath
"Modified: / 07-02-2007 / 10:31:56 / cg"
!
mode
"return mode"
^ mode
!
modificationTime
"return modified"
^ modified
"Created: / 1.2.2002 / 11:06:33 / cg"
!
numLinks
"DOS has no hardLinks - return 1"
^ 1
"Created: / 1.2.2002 / 11:07:04 / cg"
!
path
"for symbolic links only: return the path where the symbolic link points to.
bad named method - left here for backward compatibility"
^ self linkTargetPath.
!
size
"return size"
^ size
!
statusChangeTime
"return statusChanged"
^ statusChanged ? modified
"Created: / 1.2.2002 / 11:07:27 / cg"
!
type
"return type"
^ type
!
uid
"return uid"
^ uid
! !
!Win32OperatingSystem::FileStatusInfo methodsFor:'accessing-vms'!
fixedHeaderSize
"return the fixedHeaderSize (VMS only; nil everywhere else)"
^ nil
!
recordAttributes
"return the recordAttributes (VMS only; nil everywhere else)"
^ nil
!
recordFormat
"return the recordFormat (VMS only; nil everywhere else)"
^ nil
!
recordFormatNumeric
"return the recordFormat as numeric (VMS only; nil everywhere else)"
^ nil
!
recordSize
"return the recordSize (VMS only; nil everywhere else)"
^ nil
! !
!Win32OperatingSystem::FileStatusInfo methodsFor:'backward compatibility'!
accessed
"return accessed"
<resource: #obsolete>
self obsoleteMethodWarning:'use #accessTime'.
^ accessed
!
at:key
"backward compatibility access: in previous releases, IdentityDictionaries
were used to hold my information. Allow access via key messages.
This method will vanish - use the proper access protocol."
^ self perform:key
!
modified
<resource: #obsolete>
self obsoleteMethodWarning:'use #modificationTime'.
^ modified
!
statusChanged
<resource: #obsolete>
self obsoleteMethodWarning:'use #statusChangeTime'.
^ statusChanged
! !
!Win32OperatingSystem::FileStatusInfo methodsFor:'private accessing'!
type:t mode:m uid:u gid:g size:s id:i accessed:aT modified:mT created:cT sourcePath:lP fullName:name1 alternativeName:name2
type := t.
mode := m.
uid := u.
gid := g.
size := s.
id := i.
accessed := aT.
modified := mT.
created := cT.
sourcePath := lP.
fullPathName := name1.
alternativePathName := name2.
! !
!Win32OperatingSystem::FileStatusInfo methodsFor:'queries-access'!
isGroupExecutable
^ mode bitTest:8r10
"
'smalltalk.rc' asFilename info isGroupExecutable
"
!
isGroupReadable
^ mode bitTest:8r40
"
'smalltalk.rc' asFilename info isGroupReadable
"
!
isGroupWritable
^ mode bitTest:8r20
"
'smalltalk.rc' asFilename info isGroupWritable
"
!
isOwnerExecutable
^ mode bitTest:8r100
"
'smalltalk.rc' asFilename info isOwnerExecutable
"
!
isOwnerReadable
^ mode bitTest:8r400
"
'smalltalk.rc' asFilename info isOwnerReadable
"
!
isOwnerWritable
^ mode bitTest:8r200
"
'smalltalk.rc' asFilename info isOwnerWritable
"
!
isWorldExecutable
^ mode bitTest:8r1
"
'smalltalk.rc' asFilename info isWorldExecutable
"
!
isWorldReadable
^ mode bitTest:8r4
"
'smalltalk.rc' asFilename info isWorldReadable
"
!
isWorldWritable
^ mode bitTest:8r2
"
'smalltalk.rc' asFilename info isWorldWritable
"
! !
!Win32OperatingSystem::FileStatusInfo methodsFor:'queries-type'!
isBlockSpecial
^ type == #characterSpecial
!
isCharacterSpecial
^ type == #characterSpecial
!
isDirectory
^ type == #directory
!
isFifo
^ type == #fifo
!
isRegular
^ type == #regular
!
isSocket
^ type == #socket
!
isSymbolicLink
^ type == #symbolicLink
!
isUnknown
^ type == #unknown
! !
!Win32OperatingSystem::OSProcessStatus class methodsFor:'documentation'!
documentation
"
This is an auxillary class, that holds information about status changes of
operating system processes (these are no smalltalk processes!!).
[Instance variables:]
pid <Integer> OS-Process identifier
status <Symbol> either #exit #signal #stop #continue
code <Integer> either exitcode or signalnumber
core <Boolean> true if core has been dumped
[author:]
Stefan Vogel
[see also:]
OperatingSystem
"
! !
!Win32OperatingSystem::OSProcessStatus class methodsFor:'instance creation'!
pid:pid status:status code:code core:core
"private interface for Win32OperatingSystem"
^ self new pid:pid status:status code:code core:core
"Created: 28.12.1995 / 14:16:14 / stefan"
"Modified: 30.4.1996 / 18:25:00 / cg"
!
processCreationFailure
"private interface for Win32OperatingSystem"
^ self new pid:-1 status:#failure code:-1 core:false
"Created: 28.12.1995 / 14:35:29 / stefan"
"Modified: 30.4.1996 / 18:25:05 / cg"
! !
!Win32OperatingSystem::OSProcessStatus methodsFor:'accessing'!
code
"return the exitcode / signalNumber"
^ code
"Created: 28.12.1995 / 14:05:07 / stefan"
"Modified: 30.4.1996 / 18:26:23 / cg"
!
core
"return true if core has been dumped, false otherwise"
^ core == true
"Modified: 28.12.1995 / 14:14:38 / stefan"
!
pid
"return the pid"
^ pid
"Created: 28.12.1995 / 14:05:07 / stefan"
"Modified: 30.4.1996 / 18:26:30 / cg"
!
status
"return status as a Symbol;
one of #exit #signal #stop #continue"
^ status
"Created: 28.12.1995 / 14:05:07 / stefan"
"Modified: 30.4.1996 / 18:26:54 / cg"
! !
!Win32OperatingSystem::OSProcessStatus methodsFor:'initialization'!
pid:newPid status:newStatus code:newCode core:newCore
pid := newPid.
status := newStatus.
code := newCode.
core := newCore.
"Created: 28.12.1995 / 14:18:22 / stefan"
! !
!Win32OperatingSystem::OSProcessStatus methodsFor:'private-OS interface'!
code:something
"set the exitCode"
code := something.
"Created: 28.12.1995 / 14:05:07 / stefan"
"Modified: 30.4.1996 / 18:25:18 / cg"
!
core:something
"set core"
core := something.
"Created: 28.12.1995 / 14:05:07 / stefan"
!
pid:something
"set pid"
pid := something.
"Created: 28.12.1995 / 14:05:07 / stefan"
!
status:something
"set status"
status := something.
"Created: 28.12.1995 / 14:05:07 / stefan"
! !
!Win32OperatingSystem::OSProcessStatus methodsFor:'queries'!
couldNotExecute
"return true when a command could not be executed"
^ status == #exit and:[code = 127].
"Created: 28.12.1995 / 15:43:17 / stefan"
"Modified: 30.4.1996 / 18:27:03 / cg"
!
stillAlive
"true if process is still alive"
^ status == #stop or:[status == #continue]
"Created: 28.12.1995 / 14:27:26 / stefan"
!
success
"true if process terminated successfully"
^ status == #exit and:[code = 0]
"Created: 28.12.1995 / 14:13:05 / stefan"
"Modified: 28.12.1995 / 14:13:41 / stefan"
! !
!Win32OperatingSystem::PerformanceData class methodsFor:'accessing'!
counterIndexTextDictionary
"
self counterIndexTextDictionary
"
CounterIndexTextDictionary isNil ifTrue:[
self synchronized:[
CounterIndexTextDictionary isNil ifTrue:[
|performanceText counterIndexTextDictionary|
performanceText := self getPerformanceText valueNamed:'Counter'.
counterIndexTextDictionary := IdentityDictionary new.
1 to:performanceText size by:2 do:[:index|
counterIndexTextDictionary at:(performanceText at:index) asInteger put:(performanceText at:index + 1).
].
CounterIndexTextDictionary := counterIndexTextDictionary.
].
].
].
^ CounterIndexTextDictionary
!
helpIndexTextDictionary
"
self helpIndexTextDictionary
"
HelpIndexTextDictionary isNil ifTrue:[
self synchronized:[
HelpIndexTextDictionary isNil ifTrue:[
|performanceText helpIndexTextDictionary|
performanceText := self getPerformanceText valueNamed:'Help'.
helpIndexTextDictionary := IdentityDictionary new.
1 to:performanceText size by:2 do:[:index|
helpIndexTextDictionary at:(performanceText at:index) asInteger put:(performanceText at:index + 1).
].
HelpIndexTextDictionary := helpIndexTextDictionary.
].
].
].
^ HelpIndexTextDictionary
! !
!Win32OperatingSystem::PerformanceData class methodsFor:'accessing subclasses'!
diskIO
^ DiskIO current
!
global
^ Global current
!
memory
^ Memory current
!
network
^ Network current
!
process
^ Process current
!
processor
^ Processor current
! !
!Win32OperatingSystem::PerformanceData class methodsFor:'documentation'!
documentation
"
VISTA:
Wer versucht unter Vista die Registy HKEY_PERFORMANCE_DATA abzufragen wird zunächst enttäuscht.
Die UAC UserAccessControl verhindern dies nämlich (selbs für den admin).
Um dies zu umgehen:
To turn off UAC
1. Click Start, and then click Control Panel.
2. In Control Panel, click User Accounts.
3. In the User Accounts window, click User Accounts.
4. In the User Accounts tasks window, click Turn User Account Control on or off.
5. If UAC is currently configured in Admin Approval Mode, the User Account Control message appears. Click Continue.
6. Clear the Use User Account Control (UAC) to help protect your computer check box, and then click OK.
7. Click Restart Now to apply the change right away, or click Restart Later and close the User Accounts tasks window.
"
!
examples
"
######################################### PRIMITIVE
self getUsedMemoryInPercentage.
self getPhysicalMemoryInKB.
self getPhysicalMemoryInMB.
self getFreePhysicalMemoryInKB.
self getFreePhysicalMemoryInMB.
self getPageFileSizeInKB.
self getPageFileSizeInMB.
self getFreePageFileSizeInKB.
self getFreePageFileSizeInMB.
self getVirtualMemoryInKB.
self getVirtualMemoryInMB.
######################################### REGISTRY
self helpIndexTextDictionary
self counterIndexTextDictionary
self global getCounterNameIndexArray.
self global getObjectNameIndexArray.
self processor getCounterNameIndexArray.
self processor processorUsage.
self processor processorUsageFromLast.
self processor interruptsPerSecond.
self processor interruptsPerSecondFromLast.
self process getCounterNameIndexArray.
self process processUsage.
self process processUsageFromLast.
self process runningProcesses.
self process runningProcessNameList.
self network getCounterNameIndexArray.
self network kBytesReceivedPerSecond.
self network kBytesReceivedPerSecondFromLast.
self network kBytesSentPerSecond.
self network kBytesSentPerSecondFromLast.
self memory getCounterNameIndexArray.
self memory availableMBytes.
self memory availableKBytes.
self diskIO getCounterNameIndexArray.
self diskIO diskSpaceFreeInMegaByte.
self diskIO diskQueueLength.
self diskIO diskTransfersPerSecond.
self diskIO diskTransfersPerSecondFromlast.
self diskIO diskReadsPerSecond.
self diskIO diskReadsPerSecondFromLast.
self diskIO diskWritesPerSecond.
self diskIO diskWritesPerSecondFromLast.
self diskIO diskBytesPerSecond.
self diskIO diskBytesPerSecondFromLast.
"
! !
!Win32OperatingSystem::PerformanceData class methodsFor:'initialization'!
initialize
"
self initialize
"
PerformanceText := CounterIndexTextDictionary := HelpIndexTextDictionary := nil.
! !
!Win32OperatingSystem::PerformanceData class methodsFor:'private'!
getPerformanceText
PerformanceText isNil ifTrue:[
PerformanceText := Win32OperatingSystem registryEntry key:'HKEY_PERFORMANCE_TEXT'.
].
^ PerformanceText
! !
!Win32OperatingSystem::PerformanceData class methodsFor:'queries - memory'!
getFreePageFileSizeInKB
|ret|
%{
MEMORYSTATUS mState;
GlobalMemoryStatus (&mState);
ret = __mkSmallInteger(mState.dwAvailPageFile / 1024);
%}.
^ ret
"
self getFreePageFileSizeInKB
"
!
getFreePageFileSizeInMB
^ (self getFreePageFileSizeInKB / 1024) asInteger
"
self getFreePageFileSizeInMB
"
!
getFreePhysicalMemoryInKB
|ret|
%{
MEMORYSTATUS mState;
GlobalMemoryStatus (&mState);
ret = __mkSmallInteger(mState.dwAvailPhys / 1024);
%}.
^ ret
"
self getFreePhysicalMemoryInKB
"
!
getFreePhysicalMemoryInMB
^ (self getFreePhysicalMemoryInKB / 1024) asInteger
"
self getFreePhysicalMemoryInMB
"
!
getPageFileSizeInKB
^ self getPageFileSizeInMB * 1024
"
self getPageFileSizeInKB
"
!
getPageFileSizeInMB
|ret|
%{
SYSTEM_INFO sInfo;
GetSystemInfo(&sInfo);
ret = __mkSmallInteger(sInfo.dwPageSize);
%}.
^ ret
"
self getPageFileSizeInMB
"
!
getPhysicalMemoryInKB
|ret|
%{
MEMORYSTATUS mState;
GlobalMemoryStatus (&mState);
ret = __mkSmallInteger(mState.dwTotalPhys / 1024);
%}.
^ ret
"
self getPhysicalMemoryInKB
"
!
getPhysicalMemoryInMB
^ (self getPhysicalMemoryInKB / 1024) asInteger
"
self getPhysicalMemoryInMB
"
!
getUsedMemoryInPercentage
|ret|
%{
MEMORYSTATUS mState;
GlobalMemoryStatus (&mState);
ret = __mkSmallInteger(mState.dwMemoryLoad);
%}.
^ ret
"
self getUsedMemoryInPercentage
"
!
getVirtualMemoryInKB
|ret|
%{
MEMORYSTATUS mState;
GlobalMemoryStatus (&mState);
ret = __mkSmallInteger(mState.dwTotalVirtual / 1024);
%}.
^ ret
"
self getVirtualMemoryInKB
"
!
getVirtualMemoryInMB
^ (self getVirtualMemoryInKB / 1024) asInteger
"
self getVirtualMemoryInMB
"
! !
!Win32OperatingSystem::PerformanceData methodsFor:'accessing'!
objectArray
^ objectArray
!
perfFreq
^ perfFreq
!
perfTime
^ perfTime
!
perfTime100nSec
^ perfTime100nSec
! !
!Win32OperatingSystem::PerformanceData methodsFor:'setup'!
fromRawBytes:st_data
|
getNameBlock getCounterValueBlock
st_perfTime st_perfFreq st_perfTime100nSec
st_objectArray st_counterArray st_instanceArray
st_perObject st_perCounter st_perInstance
|
%{
//declarate counters
int objectIterator, counterIterator, instanceIterator, numObjectTypes;
//declarate pointers
PERF_DATA_BLOCK *perfData;
PERF_OBJECT_TYPE *perfObjectPtr;
PERF_COUNTER_DEFINITION *perfCounterPtr;
PERF_INSTANCE_DEFINITION *perfInstancePtr;
PERF_COUNTER_BLOCK *perfCounterBlockPtr;
#define PERF_SIZE_MASK (PERF_SIZE_DWORD|PERF_SIZE_LARGE|PERF_SIZE_ZERO|PERF_SIZE_VARIABLE_LEN)
#define PERF_TYPE_MASK (PERF_TYPE_NUMBER|PERF_TYPE_COUNTER|PERF_TYPE_TEXT|PERF_TYPE_ZERO)
#define PERF_NUMBERTYPE_MASK (PERF_NUMBER_HEX|PERF_NUMBER_DECIMAL|PERF_NUMBER_DEC_1000)
#define PERF_COUNTERTYPE_MASK (PERF_COUNTER_VALUE|PERF_COUNTER_RATE|PERF_COUNTER_FRACTION|PERF_COUNTER_BASE|PERF_COUNTER_ELAPSED|PERF_COUNTER_QUEUELEN|PERF_COUNTER_HISTOGRAM|PERF_COUNTER_PRECISION)
#define PERF_TEXTTYPE_MASK (PERF_TEXT_UNICODE|PERF_TEXT_ASCII)
if (!__isByteArray(st_data)) RETURN (nil);
//setup start pointer
perfData = (PERF_DATA_BLOCK *)(__ByteArrayInstPtr(st_data)->ba_element);
//get header data
st_perfTime = __MKINT64(&(perfData->PerfTime));
st_perfFreq = __MKINT64(&(perfData->PerfFreq));
st_perfTime100nSec = __MKINT64(&(perfData->PerfTime100nSec));
//setup object array and initialize its pointer
numObjectTypes = perfData->NumObjectTypes;
st_objectArray = __ARRAY_NEW_INT(numObjectTypes);
perfObjectPtr = (PERF_OBJECT_TYPE *)((char *)perfData + perfData->HeaderLength);
//iterate all following objetcs
for (objectIterator=0; objectIterator<numObjectTypes; objectIterator++) {
//add the st_perObject dictionary to st_objectArray
st_perObject = __SSEND0(@global(Dictionary), @symbol(new), 0);
__AT_PUT_(st_objectArray, __mkSmallInteger(objectIterator+1), st_perObject);
//get the object data
__AT_PUT_(st_perObject, @symbol(ObjectNameTitleIndex), __mkSmallInteger(perfObjectPtr->ObjectNameTitleIndex));
__AT_PUT_(st_perObject, @symbol(DetailLevel), __mkSmallInteger(perfObjectPtr->DetailLevel));
__AT_PUT_(st_perObject, @symbol(NumCounters), __mkSmallInteger(perfObjectPtr->NumCounters));
__AT_PUT_(st_perObject, @symbol(NumInstances), __mkSmallInteger(perfObjectPtr->NumInstances));
//setup counter array and initialize its pointer
st_counterArray = __ARRAY_NEW_INT(perfObjectPtr->NumCounters);
perfCounterPtr = (PERF_COUNTER_DEFINITION *)((char *)perfObjectPtr + perfObjectPtr->HeaderLength);
//add the st_counterArray to st_perObject dictionary
__AT_PUT_(st_perObject, @symbol(Counters), st_counterArray);
//iterate all following counter definition
for (counterIterator=0; counterIterator<perfObjectPtr->NumCounters; counterIterator++) {
//add the st_perCounter dictionary to st_counterArray
st_perCounter = __SSEND0(@global(Dictionary), @symbol(new), 0);
__AT_PUT_(st_counterArray, __mkSmallInteger(counterIterator+1), st_perCounter);
//get the counter data
__AT_PUT_(st_perCounter, @symbol(CounterNameTitleIndex), __mkSmallInteger(perfCounterPtr->CounterNameTitleIndex));
__AT_PUT_(st_perCounter, @symbol(CounterTypeBits), __mkSmallInteger(perfCounterPtr->CounterType));
__AT_PUT_(st_perCounter, @symbol(CounterSize), __mkSmallInteger(perfCounterPtr->CounterSize));
__AT_PUT_(st_perCounter, @symbol(CounterOffset), __mkSmallInteger(perfCounterPtr->CounterOffset));
//put the counter type size
switch (perfCounterPtr->CounterType & PERF_SIZE_MASK) {
case PERF_SIZE_DWORD:
__AT_PUT_(st_perCounter, @symbol(SIZE),@symbol(DWORD));
break;
case PERF_SIZE_LARGE:
__AT_PUT_(st_perCounter, @symbol(SIZE),@symbol(LARGE));
break;
case PERF_SIZE_ZERO:
__AT_PUT_(st_perCounter, @symbol(SIZE),@symbol(ZERO));
break;
case PERF_SIZE_VARIABLE_LEN:
__AT_PUT_(st_perCounter, @symbol(SIZE),@symbol(VARIABLE_LEN));
break;
}
switch (perfCounterPtr->CounterType & PERF_TYPE_MASK) {
case PERF_TYPE_NUMBER:
__AT_PUT_(st_perCounter, @symbol(TYPE),@symbol(NUMBER));
switch (perfCounterPtr->CounterType & PERF_NUMBERTYPE_MASK) {
case PERF_NUMBER_HEX:
__AT_PUT_(st_perCounter, @symbol(NUMBER),@symbol(HEX));
break;
case PERF_NUMBER_DECIMAL:
__AT_PUT_(st_perCounter, @symbol(NUMBER),@symbol(DECIMAL));
break;
case PERF_NUMBER_DEC_1000:
__AT_PUT_(st_perCounter, @symbol(NUMBER),@symbol(DEC_1000));
break;
}
break;
case PERF_TYPE_COUNTER:
__AT_PUT_(st_perCounter, @symbol(TYPE),@symbol(COUNTER));
switch (perfCounterPtr->CounterType & PERF_COUNTERTYPE_MASK) {
case PERF_COUNTER_VALUE:
__AT_PUT_(st_perCounter, @symbol(COUNTER),@symbol(VALUE));
break;
case PERF_COUNTER_RATE:
__AT_PUT_(st_perCounter, @symbol(COUNTER),@symbol(RATE));
break;
case PERF_COUNTER_FRACTION:
__AT_PUT_(st_perCounter, @symbol(COUNTER),@symbol(FRACTION));
break;
case PERF_COUNTER_BASE:
__AT_PUT_(st_perCounter, @symbol(COUNTER),@symbol(BASE));
break;
case PERF_COUNTER_ELAPSED:
__AT_PUT_(st_perCounter, @symbol(COUNTER),@symbol(ELAPSED));
break;
case PERF_COUNTER_QUEUELEN:
__AT_PUT_(st_perCounter, @symbol(COUNTER),@symbol(QUEUELEN));
break;
case PERF_COUNTER_HISTOGRAM:
__AT_PUT_(st_perCounter, @symbol(COUNTER),@symbol(HISTOGRAM));
break;
case PERF_COUNTER_PRECISION:
__AT_PUT_(st_perCounter, @symbol(COUNTER),@symbol(PRECISION));
break;
}
break;
case PERF_TYPE_TEXT:
__AT_PUT_(st_perCounter, @symbol(TYPE),@symbol(TEXT));
switch (perfCounterPtr->CounterType & PERF_TEXTTYPE_MASK) {
case PERF_TEXT_UNICODE:
__AT_PUT_(st_perCounter, @symbol(TEXT),@symbol(UNICODE));
break;
case PERF_TEXT_ASCII:
__AT_PUT_(st_perCounter, @symbol(TEXT),@symbol(ASCII));
break;
}
break;
case PERF_TYPE_ZERO:
__AT_PUT_(st_perCounter, @symbol(TYPE),@symbol(ZERO));
break;
}
//setup the counter pointer to the next counter definition
perfCounterPtr = (PERF_COUNTER_DEFINITION *)((char *)perfCounterPtr + perfCounterPtr->ByteLength);
}
//goon dependent on the count of instances
if (perfObjectPtr->NumInstances < 1) {
perfCounterBlockPtr = (PERF_COUNTER_BLOCK *)(perfCounterPtr);
__AT_PUT_(st_perObject, @symbol(RawData), __MKBYTEARRAY(perfCounterBlockPtr, perfCounterBlockPtr->ByteLength));
} else {
//setup the instance pointer to the end of all counters
perfInstancePtr = (PERF_INSTANCE_DEFINITION *)(perfCounterPtr);
//setup st_instanceArray and add it to st_perObject
st_instanceArray = __ARRAY_NEW_INT(perfObjectPtr->NumInstances);
__AT_PUT_(st_perObject, @symbol(Instances), st_instanceArray);
//iterate the instances
for (instanceIterator=0; instanceIterator<perfObjectPtr->NumInstances; instanceIterator++) {
//setup st_perInstance and add it to st_instanceArray
st_perInstance = __SSEND0(@global(Dictionary), @symbol(new), 0);
__AT_PUT_(st_instanceArray, __mkSmallInteger(instanceIterator+1), st_perInstance);
//get the instance data
__AT_PUT_(st_perInstance, @symbol(Name), __MKBYTEARRAY((wchar_t *)((BYTE *)perfInstancePtr + perfInstancePtr->NameOffset),perfInstancePtr->NameLength));
__AT_PUT_(st_perInstance, @symbol(ParentObjectTitleIndex), __mkSmallInteger(perfInstancePtr->ParentObjectTitleIndex));
__AT_PUT_(st_perInstance, @symbol(ParentObjectInstance), __mkSmallInteger(perfInstancePtr->ParentObjectInstance));
__AT_PUT_(st_perInstance, @symbol(NameOffset), __mkSmallInteger(perfInstancePtr->NameOffset));
__AT_PUT_(st_perInstance, @symbol(NameLength), __mkSmallInteger(perfInstancePtr->NameLength));
//setup the instance pointer to the its end
perfInstancePtr = (PERF_INSTANCE_DEFINITION *)((char *)perfInstancePtr + perfInstancePtr->ByteLength);
//setup the counter block pointer
perfCounterBlockPtr = (PERF_COUNTER_BLOCK *)(perfInstancePtr);
//get the instance raw data
__AT_PUT_(st_perInstance, @symbol(RawData), __MKBYTEARRAY(perfCounterBlockPtr, perfCounterBlockPtr->ByteLength));
//setup the instance pointer to the next instance
perfInstancePtr = (PERF_INSTANCE_DEFINITION *)((char *)perfCounterBlockPtr + perfCounterBlockPtr->ByteLength);
}
}
//setup the object pointer to the next object
perfObjectPtr = (PERF_OBJECT_TYPE *)((char *)perfObjectPtr + perfObjectPtr->TotalByteLength);
}
%}.
objectArray := st_objectArray.
perfTime := st_perfTime.
perfFreq := st_perfFreq.
perfTime100nSec := st_perfTime100nSec.
getNameBlock := [:i|
self class counterIndexTextDictionary at:i ifAbsent:['<<no name>>'].
].
getCounterValueBlock := [:counter :rawData|
|offset counterValue|
offset := counter at:#CounterOffset.
offset >= rawData size ifTrue:[
counterValue := nil.
] ifFalse:[
(counter at:#SIZE) == #LARGE ifTrue:[
counterValue := rawData unsignedLongLongAt:offset + 1 bigEndian:false.
] ifFalse:[
(counter at:#SIZE) == #DWORD ifTrue:[
counterValue := rawData unsignedLongAt:offset + 1 bigEndian:false.
] ifFalse:[
self halt.
].
].
].
counterValue
].
objectArray do:[:anObject|
"setup the object name"
anObject at:#ObjectNameTitle put:(getNameBlock value:(anObject at:#ObjectNameTitleIndex)).
"setup the name and a counter value array to each counter"
(anObject at:#Counters) do:[:aCounter|
aCounter at:#CounterNameTitle put:(getNameBlock value:(aCounter at:#CounterNameTitleIndex)).
aCounter at:#CounterValueArray put:OrderedCollection new.
].
(anObject at:#NumInstances) < 1 ifTrue:[
|rawData|
rawData := anObject at:#RawData.
(anObject at:#Counters) do:[:aCounter|
(aCounter at:#CounterValueArray) add:(getCounterValueBlock value:aCounter value:rawData).
].
] ifFalse:[
(anObject at:#Instances) do:[:anInstance|
|rawData|
rawData := anInstance at:#RawData.
anInstance at:#Name put:((Unicode16String fromBytes:(anInstance at:#Name) copy swapBytes) copyWithoutLast:1).
(anObject at:#Counters) do:[:aCounter|
(aCounter at:#CounterValueArray) add:(getCounterValueBlock value:aCounter value:rawData).
].
].
].
].
^ self
! !
!Win32OperatingSystem::PerformanceData::Abstract methodsFor:'accessing'!
cachedResults
cachedResults isNil ifTrue:[
cachedResults := IdentityDictionary new.
].
^ cachedResults
!
lastData
^ lastData
!
lastData:something
lastData := something.
!
lastTimestamp
^ lastTimestamp
!
lastTimestamp:something
lastTimestamp := something.
! !
!Win32OperatingSystem::PerformanceData::Abstract methodsFor:'definitions'!
aliveTime
"
returns the time a data stays alive, in milliseconds
before we push a new call and overwrite the data
"
^ self subclassResponsibility
!
indexedName
^ self subclassResponsibility
!
indexedNameNumbered
^ self indexedName asInteger
!
timedQueryMilliseconds
^ 100
! !
!Win32OperatingSystem::PerformanceData::Abstract methodsFor:'private'!
data
self synchronized:[
|lastTS|
lastTS := self lastTimestamp.
lastTS isNil ifTrue:[
^ self dataBasic
] ifFalse:[
Timestamp now asMilliseconds - lastTS >= self aliveTime ifTrue:[
^ self dataBasic
] ifFalse:[
^ self lastData
].
].
].
!
dataBasic
|regEntry|
regEntry := (Win32OperatingSystem registryEntry key:'HKEY_PERFORMANCE_DATA') valueNamed:self indexedName asString.
self assert:(regEntry notNil).
self lastTimestamp:Timestamp now asMilliseconds.
self lastData:(Win32OperatingSystem::PerformanceData new fromRawBytes:regEntry).
^ self lastData
! !
!Win32OperatingSystem::PerformanceData::Abstract methodsFor:'queries'!
getCounterNameIndexArray
|data object debugBlock|
data := self data.
self indexedNameNumbered == 0 ifTrue:[
object := data objectArray at:1 ifAbsent:[debugBlock value:(object at:#ObjectNameTitle)].
] ifFalse:[
object := data objectArray detect:[:el|(el at:#ObjectNameTitleIndex) == self indexedNameNumbered] ifNone:[self error:'counter not found'].
].
^ (object at:#Counters) collect:[:el|Array with:(el at:#CounterNameTitle) with:(el at:#CounterNameTitleIndex)].
! !
!Win32OperatingSystem::PerformanceData::Abstract methodsFor:'queries - timed'!
getPerSecondFromLast:aSelector
|cachedResult return|
cachedResult := self cachedResults at:aSelector ifAbsent:nil.
cachedResult notNil ifTrue:[
|currentResult|
currentResult := self perform:aSelector.
return := self getPerSecondViaResult1:cachedResult result2:currentResult.
self cachedResults at:aSelector put:currentResult.
] ifFalse:[
self cachedResults at:aSelector put:(self perform:aSelector).
].
^ return
!
getPerSecondViaPerformBlock:performBlock
|result1 result2 runTimeInNS runTimeInS values1 values2 globalResult|
self assert:(self aliveTime < self timedQueryMilliseconds).
result1 := performBlock value.
Delay waitForMilliseconds:self timedQueryMilliseconds.
result2 := performBlock value.
runTimeInNS := ((result2 at:#time100nSec) - (result1 at:#time100nSec)) * 100.
runTimeInS := runTimeInNS / 1000 / 1000 / 1000.
values1 := result1 at:#values.
values2 := result2 at:#values.
globalResult := Dictionary new.
values2 keysDo:[:key|
|difference|
difference := (values2 at:key) - (values1 at:key).
runTimeInS = 0 ifTrue:[
globalResult at:key put:0.
] ifFalse:[
globalResult at:key put:(difference / runTimeInS) asFloat.
].
].
^ globalResult
!
getPerSecondViaResult1:result1 result2:result2
|runTimeInNS runTimeInS values1 values2 globalResult|
runTimeInNS := ((result2 at:#time100nSec) - (result1 at:#time100nSec)) * 100.
runTimeInS := runTimeInNS / 1000 / 1000 / 1000.
values1 := result1 at:#values.
values2 := result2 at:#values.
globalResult := Dictionary new.
values2 keysDo:[:key|
|difference|
difference := (values2 at:key) - (values1 at:key).
runTimeInS = 0 ifTrue:[
globalResult at:key put:0.
] ifFalse:[
globalResult at:key put:(difference / runTimeInS) asFloat.
].
].
^ globalResult
!
getUsageFromLast:aSelector
|cachedResult return|
cachedResult := self cachedResults at:aSelector ifAbsent:nil.
cachedResult notNil ifTrue:[
|currentResult|
currentResult := self perform:aSelector.
return := self getUsageViaResult1:cachedResult result2:currentResult.
self cachedResults at:aSelector put:currentResult.
] ifFalse:[
self cachedResults at:aSelector put:(self perform:aSelector).
].
^ return
!
getUsageViaPerformBlock:performBlock
|result1 result2 deltaTIn100Ns value1 value2 globalResult|
self assert:(self aliveTime < self timedQueryMilliseconds).
result1 := performBlock value.
Delay waitForMilliseconds:self timedQueryMilliseconds.
result2 := performBlock value.
globalResult := Dictionary new.
deltaTIn100Ns := (result2 at:#time100nSec) - (result1 at:#time100nSec).
value1 := result1 at:#values.
value2 := result2 at:#values.
value1 keysDo:[:key|
|diff dPerSecond load1024 res|
diff := (value2 at:key) - (value1 at:key).
diff := diff bitShift:10.
deltaTIn100Ns = 0 ifTrue:[
dPerSecond := 0.
] ifFalse:[
dPerSecond := (diff / deltaTIn100Ns) asFloat.
].
load1024 := 1024 - dPerSecond.
res := (load1024 / 1024 * 100) asFloat.
res < 0 ifTrue:[res := 0].
globalResult at:key put:res.
].
^ globalResult
!
getUsageViaResult1:result1 result2:result2
|deltaTIn100Ns value1 value2 globalResult|
globalResult := Dictionary new.
deltaTIn100Ns := (result2 at:#time100nSec) - (result1 at:#time100nSec).
value1 := result1 at:#values.
value2 := result2 at:#values.
value1 keysDo:[:key|
|diff dPerSecond load1024 res|
diff := (value2 at:key) - (value1 at:key).
diff := diff bitShift:10.
deltaTIn100Ns = 0 ifTrue:[
dPerSecond := 0.
] ifFalse:[
dPerSecond := (diff / deltaTIn100Ns) asFloat.
].
load1024 := 1024 - dPerSecond.
res := (load1024 / 1024 * 100) asFloat.
res < 0 ifTrue:[res := 0].
globalResult at:key put:res.
].
^ globalResult
! !
!Win32OperatingSystem::PerformanceData::Abstract methodsFor:'queries - values'!
getBasicValuesByCounter:counterIndex
^ self getBasicValuesByObject:0 counter:counterIndex timed:false
!
getBasicValuesByCounter:counterIndex timed:boolean
^ self getBasicValuesByObject:0 counter:counterIndex timed:boolean
!
getBasicValuesByObject:objectIndex counter:counterIndex
^ self getBasicValuesByObject:0 counter:counterIndex timed:false
!
getBasicValuesByObject:objectIndex counter:counterIndex timed:boolean
|data object counter values debugBlock numInstances|
debugBlock := [:obj|
^ 'obj:', obj , ' this:', self printString , ' idx:', self indexedName
].
data := self dataBasic.
objectIndex == 0 ifTrue:[
object := data objectArray at:1 ifAbsent:[debugBlock value:(object at:#ObjectNameTitle)].
] ifFalse:[
object := data objectArray detect:[:el|(el at:#ObjectNameTitleIndex) == objectIndex] ifNone:[debugBlock value:(object at:#ObjectNameTitle)].
].
counter := (object at:#Counters) detect:[:aCounter|(aCounter at:#CounterNameTitleIndex) == counterIndex] ifNone:[debugBlock value:(object at:#ObjectNameTitle)].
values := Dictionary new.
numInstances := object at:#NumInstances.
numInstances > 0 ifTrue:[
1 to:numInstances do:[:idx|
|value instanceName|
value := (counter at:#CounterValueArray) at:idx.
instanceName := ((object at:#Instances) at:idx) at:#Name.
values at:instanceName put:value.
].
] ifFalse:[
values at:'<<singleton>>' put:(counter at:#CounterValueArray) first.
].
boolean ifTrue:[
|return|
return := IdentityDictionary new.
return at:#time put:data perfTime.
return at:#frequence put:data perfFreq.
return at:#time100nSec put:data perfTime100nSec.
return at:#values put:values.
^ return
].
^ values
!
getValuesByCounter:counterIndex
^ self getValuesByObject:0 counter:counterIndex timed:false
!
getValuesByCounter:counterIndex timed:boolean
^ self getValuesByObject:0 counter:counterIndex timed:boolean
!
getValuesByObject:objectIndex counter:counterIndex
^ self getValuesByObject:0 counter:counterIndex timed:false
!
getValuesByObject:objectIndex counter:counterIndex timed:boolean
|data object counter values debugBlock numInstances|
debugBlock := [:obj|
^ 'obj:', obj , ' this:', self printString , ' idx:', self indexedName
].
data := self data.
objectIndex == 0 ifTrue:[
object := data objectArray at:1 ifAbsent:[debugBlock value:(object at:#ObjectNameTitle)].
] ifFalse:[
object := data objectArray detect:[:el|(el at:#ObjectNameTitleIndex) == objectIndex] ifNone:[debugBlock value:(object at:#ObjectNameTitle)].
].
counter := (object at:#Counters) detect:[:aCounter|(aCounter at:#CounterNameTitleIndex) == counterIndex] ifNone:[debugBlock value:(object at:#ObjectNameTitle)].
values := Dictionary new.
numInstances := object at:#NumInstances.
numInstances > 0 ifTrue:[
1 to:numInstances do:[:idx|
|value instanceName|
value := (counter at:#CounterValueArray) at:idx.
instanceName := ((object at:#Instances) at:idx) at:#Name.
values at:instanceName put:value.
].
] ifFalse:[
values at:'<<singleton>>' put:(counter at:#CounterValueArray) first.
].
boolean ifTrue:[
|return|
return := IdentityDictionary new.
return at:#time put:data perfTime.
return at:#frequence put:data perfFreq.
return at:#time100nSec put:data perfTime100nSec.
return at:#values put:values.
^ return
].
^ values
! !
!Win32OperatingSystem::PerformanceData::DiskIO class methodsFor:'accessing'!
current
TheOneAndOnlyInstance isNil ifTrue:[
TheOneAndOnlyInstance := self new.
].
^ TheOneAndOnlyInstance
! !
!Win32OperatingSystem::PerformanceData::DiskIO methodsFor:'definition'!
aliveTime
^ 80
!
indexedName
^ '236'
! !
!Win32OperatingSystem::PerformanceData::DiskIO methodsFor:'queries'!
diskBytes
^ self getValuesByCounter:218 timed:true
"
self current diskBytes
"
!
diskBytesBasic
^ self getBasicValuesByCounter:218 timed:true
"
self current diskBytesBasic
"
!
diskBytesPerSecond
^ self getPerSecondViaPerformBlock:[self diskBytes]
"
self current diskBytesPerSecond
"
!
diskBytesPerSecondFromLast
^ self getPerSecondFromLast:#diskBytesBasic
"
self current diskBytesPerSecondFromLast
"
!
diskQueueLength
^ self getValuesByCounter:198
"
self current diskQueueLength
"
!
diskRead
^ self getValuesByCounter:214 timed:true
"
self current diskRead
"
!
diskReadBasic
^ self getBasicValuesByCounter:214 timed:true
"
self current diskReadBasic
"
!
diskReadsPerSecond
^ self getPerSecondViaPerformBlock:[self diskRead]
"
self current diskReadsPerSecond
"
!
diskReadsPerSecondFromLast
^ self getPerSecondFromLast:#diskReadBasic
"
self current diskReadsPerSecondFromLast
"
!
diskSpaceFreeInMegaByte
^ self getValuesByCounter:408
"
self current diskSpaceFreeInMegaByte
"
!
diskTransfers
^ self getValuesByCounter:212 timed:true
"
self current diskTransfers
"
!
diskTransfersBasic
^ self getBasicValuesByCounter:212 timed:true
"
self current diskTransfersBasic
"
!
diskTransfersPerSecond
^ self getPerSecondViaPerformBlock:[self diskTransfers]
"
self current diskTransfersPerSecond
"
!
diskTransfersPerSecondFromLast
^ self getPerSecondFromLast:#diskTransfersBasic
"
self current diskTransfersPerSecondFromlast
"
!
diskWrite
^ self getValuesByCounter:216 timed:true
"
self current diskWrite
"
!
diskWriteBasic
^ self getBasicValuesByCounter:216 timed:true
"
self current diskWriteBasic
"
!
diskWritesPerSecond
^ self getPerSecondViaPerformBlock:[self diskWrite]
"
self current diskWritesPerSecond
"
!
diskWritesPerSecondFromLast
^ self getPerSecondFromLast:#diskWriteBasic
"
self current diskWritesPerSecondFromLast
"
! !
!Win32OperatingSystem::PerformanceData::Global class methodsFor:'accessing'!
current
TheOneAndOnlyInstance isNil ifTrue:[
TheOneAndOnlyInstance := self new.
].
^ TheOneAndOnlyInstance
! !
!Win32OperatingSystem::PerformanceData::Global methodsFor:'definitions'!
aliveTime
^ 200
!
indexedName
^ 'Global'
! !
!Win32OperatingSystem::PerformanceData::Global methodsFor:'queries'!
getCounterNameIndexArray
self error:'Global implements objects only'.
!
getObjectNameIndexArray
|data indexNameArray|
data := self data.
indexNameArray := OrderedCollection new.
data objectArray do:[:anObject|
|index name|
index := anObject at:#ObjectNameTitleIndex.
name := Win32OperatingSystem::PerformanceData counterIndexTextDictionary at:index.
indexNameArray add:(Array with:name with:index).
].
^ indexNameArray
! !
!Win32OperatingSystem::PerformanceData::Memory class methodsFor:'accessing'!
current
TheOneAndOnlyInstance isNil ifTrue:[
TheOneAndOnlyInstance := self new.
].
^ TheOneAndOnlyInstance
! !
!Win32OperatingSystem::PerformanceData::Memory methodsFor:'definitions'!
aliveTime
^ 80
!
indexedName
^ '4'
! !
!Win32OperatingSystem::PerformanceData::Memory methodsFor:'queries'!
availableKBytes
^ self getValuesByCounter:1380
"
self current availableKBytes
"
!
availableMBytes
^ self getValuesByCounter:1382
"
self current availableMBytes
"
! !
!Win32OperatingSystem::PerformanceData::Network class methodsFor:'accessing'!
current
TheOneAndOnlyInstance isNil ifTrue:[
TheOneAndOnlyInstance := self new.
].
^ TheOneAndOnlyInstance
! !
!Win32OperatingSystem::PerformanceData::Network methodsFor:'definition'!
aliveTime
^ 80
!
indexedName
^ '510'
!
timedQueryMilliseconds
^ 200
! !
!Win32OperatingSystem::PerformanceData::Network methodsFor:'queries'!
bytesReceived
^ self getValuesByCounter:264 timed:true
"
self current bytesReceived
"
!
bytesReceivedBasic
^ self getBasicValuesByCounter:264 timed:true
"
self current bytesReceivedBasic
"
!
bytesReceivedPerSecond
^ self getPerSecondViaPerformBlock:[self bytesReceived]
"
self current bytesReceivedPerSecond
"
!
bytesReceivedPerSecondFromlast
^ self getPerSecondFromLast:#bytesReceivedBasic
"
self current bytesReceivedPerSecondFromlast
"
!
bytesSent
^ self getValuesByCounter:506 timed:true
"
self current bytesSent
"
!
bytesSentBasic
^ self getBasicValuesByCounter:506 timed:true
"
self current bytesSentBasic
"
!
bytesSentPerSecond
^ self getPerSecondViaPerformBlock:[self bytesSent]
"
self current bytesSentPerSecond
"
!
bytesSentPerSecondFromlast
^ self getPerSecondFromLast:#bytesSentBasic
"
self current bytesSentPerSecondFromlast
"
!
kBytesReceivedPerSecond
|modifiedDictionary|
modifiedDictionary := Dictionary new.
(self getPerSecondViaPerformBlock:[self bytesReceived]) keysAndValuesDo:[:key :value|
modifiedDictionary at:key put:(value / 1024).
].
^ modifiedDictionary
"
self current kBytesReceivedPerSecond
"
!
kBytesReceivedPerSecondFromLast
|return modifiedDictionary|
return := self bytesReceivedPerSecondFromlast.
return isNil ifTrue:[^ nil].
modifiedDictionary := Dictionary new.
return keysAndValuesDo:[:key :value|
modifiedDictionary at:key put:(value / 1024).
].
^ modifiedDictionary
"
self current kBytesReceivedPerSecondFromLast
"
!
kBytesSentPerSecond
|modifiedDictionary|
modifiedDictionary := Dictionary new.
(self getPerSecondViaPerformBlock:[self bytesSent]) keysAndValuesDo:[:key :value|
modifiedDictionary at:key put:(value / 1024).
].
^ modifiedDictionary
"
self current kBytesSentPerSecond
"
!
kBytesSentPerSecondFromLast
|return modifiedDictionary|
return := self bytesSentPerSecondFromlast.
return isNil ifTrue:[^ nil].
modifiedDictionary := Dictionary new.
return keysAndValuesDo:[:key :value|
modifiedDictionary at:key put:(value / 1024).
].
^ modifiedDictionary
"
self current kBytesSentPerSecondFromLast
"
! !
!Win32OperatingSystem::PerformanceData::Process class methodsFor:'accessing'!
current
TheOneAndOnlyInstance isNil ifTrue:[
TheOneAndOnlyInstance := self new.
].
^ TheOneAndOnlyInstance
! !
!Win32OperatingSystem::PerformanceData::Process methodsFor:'definition'!
aliveTime
^ 80
!
indexedName
^ '230'
! !
!Win32OperatingSystem::PerformanceData::Process methodsFor:'queries'!
processTime
^ self getValuesByCounter:6 timed:true
"
self current processTime
"
!
processTimeBasic
^ self getBasicValuesByCounter:6 timed:true
"
self current processTimeBasic
"
!
processUsage
|modifiedDictionary|
modifiedDictionary := Dictionary new.
(self getUsageViaPerformBlock:[self processTime]) keysAndValuesDo:[:key :value|
modifiedDictionary at:key put:(100 - value).
].
^ modifiedDictionary
"
self current processUsage
"
!
processUsageFromLast
|return modifiedDictionary|
return := self getUsageFromLast:#processTimeBasic.
return isNil ifTrue:[^ nil].
modifiedDictionary := Dictionary new.
return keysAndValuesDo:[:key :value|
modifiedDictionary at:key put:(100 - value).
].
^ modifiedDictionary
"
self current processUsageFromLast
"
!
runningProcessNameList
"_Total ~ pseudo process; Idle ~ pseudo process represents the free resources"
^ (self data objectArray first at:#Instances) collect:[:el|el at:#Name]
"
self current runningProcessNameList
"
!
runningProcesses
"_Total ~ pseudo process; Idle ~ pseudo process represents the free resources"
^ (self data objectArray first at:#NumInstances)
"
self current runningProcesses
"
! !
!Win32OperatingSystem::PerformanceData::Processor class methodsFor:'accessing'!
current
TheOneAndOnlyInstance isNil ifTrue:[
TheOneAndOnlyInstance := self new.
].
^ TheOneAndOnlyInstance
! !
!Win32OperatingSystem::PerformanceData::Processor methodsFor:'definitions'!
aliveTime
^ 80
!
indexedName
^ '238'
! !
!Win32OperatingSystem::PerformanceData::Processor methodsFor:'queries'!
interrupts
^ self getValuesByCounter:148 timed:true
"
self current interrupts
"
!
interruptsBasic
^ self getBasicValuesByCounter:148 timed:true
"
self current interruptsBasic
"
!
interruptsPerSecond
^ self getPerSecondViaPerformBlock:[self interrupts]
"
self current interruptsPerSecond
"
!
interruptsPerSecondFromLast
^ self getPerSecondFromLast:#interruptsBasic
"
self current interruptsPerSecondFromLast
"
!
processorTime
^ self getValuesByCounter:6 timed:true
"
self current processorTime
"
!
processorTimeBasic
^ self getBasicValuesByCounter:6 timed:true
"
self current processorTimeBasic
"
!
processorUsage
^ self getUsageViaPerformBlock:[self processorTime]
"
self current processorUsage
"
!
processorUsageFromLast
^ self getUsageFromLast:#processorTimeBasic
"
self current processorUsageFromLast
"
! !
!Win32OperatingSystem::PrinterInfo2Structure methodsFor:'accessing'!
defaultPriority
|defaultPriority|
Error handle:[:ex |
Transcript showCR: 'PrinterInfo2 error getting defaultPriority - ', ex description.
defaultPriority := 0.
] do:[
defaultPriority := self unsignedLongAt:(60 + 1)
].
^ defaultPriority
"Created: / 01-08-2006 / 12:46:50 / fm"
"Modified: / 16-04-2007 / 13:08:33 / cg"
!
pComment
|pComment|
Error handle:[:ex |
Transcript showCR: 'PrinterInfo2 error getting pComment - ', ex description.
pComment := 0.
] do:[
pComment := self unsignedLongAt:(20 + 1).
].
^ pComment == 0
ifTrue:''
ifFalse:[ (ExternalBytes address:pComment) stringAt:1 ]
"Created: / 01-08-2006 / 14:02:55 / fm"
"Modified: / 16-04-2007 / 13:08:39 / cg"
!
pDriverName
|pName|
Error handle:[:ex |
Transcript showCR: 'PrinterInfo2 error getting pDriverName - ', ex description.
pName := 0.
] do:[
pName := self unsignedLongAt:(16 + 1).
].
pName == 0 ifTrue:[^ ''].
^ (ExternalBytes address:pName) stringAt:1
"Created: / 01-08-2006 / 14:05:18 / fm"
"Modified: / 16-04-2007 / 13:08:43 / cg"
!
pLocation
|pLocation externalBytes|
Error handle:[:ex |
Transcript showCR: 'PrinterInfo2 error getting pLocation - ', ex description.
pLocation := 0.
] do:[
pLocation := self unsignedLongAt:(24 + 1).
].
pLocation == 0 ifTrue:[^ nil].
externalBytes := ExternalBytes address:pLocation.
^ externalBytes isEmpty
ifTrue:[ nil ]
ifFalse:[ externalBytes stringAt:1 ]
"Created: / 01-08-2006 / 14:03:21 / fm"
"Modified: / 18-10-2006 / 12:06:45 / User"
"Modified: / 16-04-2007 / 13:08:27 / cg"
!
priority
|priority|
Error handle:[:ex |
Transcript showCR: 'PrinterInfo2 error getting priority - ', ex description.
priority := 0.
] do:[
priority := self unsignedLongAt: 56 + 1
].
^ priority
"Created: / 01-08-2006 / 14:40:08 / fm"
"Modified: / 16-04-2007 / 13:09:02 / cg"
!
status
|status|
Error handle:[:ex |
Transcript showCR: 'PrinterInfo2 error getting status - ', ex description.
status := -1.
] do:[
status := self unsignedLongAt: 72 + 1
].
^ status
"Created: / 31-07-2006 / 11:08:05 / fm"
"Modified: / 16-04-2007 / 13:08:59 / cg"
! !
!Win32OperatingSystem::RegistryEntry class methodsFor:'defaults'!
rootKeyNames
"returns a collection of root keyNames"
^ #(
'HKEY_CLASSES_ROOT'
'HKEY_CURRENT_USER'
'HKEY_LOCAL_MACHINE'
'HKEY_USERS'
'HKEY_PERFORMANCE_DATA'
'HKEY_CURRENT_CONFIG'
'HKEY_DYN_DATA'
)
!
separator
"returns the registry-key-path separator character"
^$\
! !
!Win32OperatingSystem::RegistryEntry class methodsFor:'documentation'!
documentation
"
Interface to a WIN32 registry.
As this is a private class, access it via
Win32OperatingSystem registryEntry
[author:]
Claus Gittinger (initial version & cleanup)
"
!
examples
"
retrieve an existing entry by key:
[exBegin]
|k|
k := Win32OperatingSystem registryEntry key:'HKEY_LOCAL_MACHINE\Software\eXept\Smalltalk/X'
[exEnd]
retrieve a non-existing entry by key:
[exBegin]
|k|
k := Win32OperatingSystem registryEntry key:'HKEY_LOCAL_MACHINE\Software\xxx'
[exEnd]
ask a keys value:
[exBegin]
|k|
k := Win32OperatingSystem registryEntry key:'HKEY_LOCAL_MACHINE\Software\Microsoft\Windows\CurrentVersion'.
Transcript show:'Windows serial NR:'; showCR:(k valueNamed:'ProductId').
k := Win32OperatingSystem registryEntry key:'HKEY_LOCAL_MACHINE\Software\eXept\Smalltalk/X'.
Transcript showCR:(k valueNamed:'CurrentVersion').
[exEnd]
create a sub-key (if not already present):
[exBegin]
|k subKey|
k := Win32OperatingSystem registryEntry key:'HKEY_LOCAL_MACHINE\Software\eXept\Smalltalk/X'.
subKey := k createSubKeyNamed:'RegistryDemo'
[exEnd]
change a keys value:
[exBegin]
|k|
k := Win32OperatingSystem registryEntry key:'HKEY_LOCAL_MACHINE\Software\eXept\Smalltalk/X\RegistryDemo'.
k valueNamed:'FooBarBaz' put:'a foo bar baz string'.
[exEnd]
delete a value:
[exBegin]
|k|
k := Win32OperatingSystem registryEntry key:'HKEY_LOCAL_MACHINE\Software\eXept\Smalltalk/X\RegistryDemo'.
k deleteValueNamed:'FooBarBaz'.
[exEnd]
delete a key:
[exBegin]
|k|
k := Win32OperatingSystem registryEntry key:'HKEY_LOCAL_MACHINE\Software\eXept\Smalltalk/X'.
k deleteSubKeyNamed:'RegistryDemo'.
[exEnd]
enumerate keys:
[exBegin]
|k|
k := Win32OperatingSystem registryEntry key:'HKEY_LOCAL_MACHINE\Software'.
k subKeysDo:[:subKey |
Transcript showCR:subKey path
]
[exEnd]
enumerate all keys (recursive):
[exBegin]
|k|
k := Win32OperatingSystem registryEntry key:'HKEY_LOCAL_MACHINE\Software'.
k allSubKeysDo:[:subKey |
Transcript showCR:subKey path
]
[exEnd]
fetch value by index:
[exBegin]
|k|
k := Win32OperatingSystem registryEntry key:'HKEY_LOCAL_MACHINE\SOFTWARE\eXept\Smalltalk/X'.
Transcript showCR:(k valueNameAtIndex:0)
[exEnd]
enumerate value names:
[exBegin]
|k|
k := Win32OperatingSystem registryEntry key:'HKEY_LOCAL_MACHINE\SOFTWARE\eXept\Smalltalk/X'.
k valueNamesDo:[:nm |
Transcript showCR:nm.
]
[exEnd]
enumerate values:
[exBegin]
|k|
k := Win32OperatingSystem registryEntry key:'HKEY_LOCAL_MACHINE\SOFTWARE\eXept\Smalltalk/X'.
k valueNamesAndValuesDo:[:nm :val |
Transcript showCR:(nm , ' -> ' , val storeString).
]
[exEnd]
search for a value (where does NT store the domain ?):
[exBegin]
|k|
k := Win32OperatingSystem registryEntry key:'HKEY_LOCAL_MACHINE\System'.
k subKeysDo:[:subKey |
subKey subKeysDo:[:subSubKey |
|tcp params|
(subSubKey path asLowercase endsWith:'services') ifTrue:[
tcp := subSubKey subKeyNamed:'tcpip'.
tcp notNil ifTrue:[
params := tcp subKeyNamed:'parameters'.
params notNil ifTrue:[
Transcript showCR:'Domain is found in ' , params path ,
' value: ' , (params valueNamed:'Domain').
params close.
].
tcp close.
]
]
]
]
[exEnd]
"
! !
!Win32OperatingSystem::RegistryEntry class methodsFor:'initialization'!
initialize
Lobby := Registry new.
ObjectMemory addDependent:self.
HKEY_CLASSES_ROOT := %{ __MKEXTERNALADDRESS(HKEY_CLASSES_ROOT) %}.
HKEY_CURRENT_USER := %{ __MKEXTERNALADDRESS(HKEY_CURRENT_USER) %}.
HKEY_LOCAL_MACHINE := %{ __MKEXTERNALADDRESS(HKEY_LOCAL_MACHINE) %}.
HKEY_USERS := %{ __MKEXTERNALADDRESS(HKEY_USERS) %}.
HKEY_PERFORMANCE_DATA := %{ __MKEXTERNALADDRESS(HKEY_PERFORMANCE_DATA) %}.
HKEY_CURRENT_CONFIG := %{ __MKEXTERNALADDRESS(HKEY_CURRENT_CONFIG) %}.
HKEY_DYN_DATA := %{ __MKEXTERNALADDRESS(HKEY_DYN_DATA) %}.
%{
#ifndef HKEY_PERFORMANCE_TEXT
/* sigh - not defined with borland-cc */
# define HKEY_PERFORMANCE_TEXT (( HKEY ) (ULONG_PTR)((LONG)0x80000050) )
#endif
#ifndef HKEY_PERFORMANCE_NLSTEXT
/* sigh - not defined with borland-cc */
# define HKEY_PERFORMANCE_NLSTEXT (( HKEY ) (ULONG_PTR)((LONG)0x80000060) )
#endif
%}.
HKEY_PERFORMANCE_TEXT := %{ __MKEXTERNALADDRESS(HKEY_PERFORMANCE_TEXT) %}.
HKEY_PERFORMANCE_NLSTEXT := %{ __MKEXTERNALADDRESS(HKEY_PERFORMANCE_NLSTEXT) %}.
"
self initialize
"
"Created: / 19.5.1999 / 21:39:57 / cg"
"Modified: / 19.5.1999 / 22:45:31 / cg"
!
rootKeyValueFor:specialKeyStringOrSymbol
"returns one of the root keys or nil
(these are shared and not finalized, as opposed to all other keys)"
HKEY_CLASSES_ROOT isNil ifTrue:[self initialize].
specialKeyStringOrSymbol = #'HKEY_CLASSES_ROOT' ifTrue:[
^ HKEY_CLASSES_ROOT.
].
specialKeyStringOrSymbol = #'HKEY_CURRENT_USER' ifTrue:[
^ HKEY_CURRENT_USER.
].
specialKeyStringOrSymbol = #'HKEY_LOCAL_MACHINE' ifTrue:[
^ HKEY_LOCAL_MACHINE.
].
specialKeyStringOrSymbol = #'HKEY_USERS' ifTrue:[
^ HKEY_USERS.
].
specialKeyStringOrSymbol = #'HKEY_PERFORMANCE_DATA' ifTrue:[
^ HKEY_PERFORMANCE_DATA.
].
specialKeyStringOrSymbol = #'HKEY_CURRENT_CONFIG' ifTrue:[
^ HKEY_CURRENT_CONFIG.
].
specialKeyStringOrSymbol = #'HKEY_DYN_DATA' ifTrue:[
^ HKEY_DYN_DATA.
].
specialKeyStringOrSymbol = #'HKEY_PERFORMANCE_TEXT' ifTrue:[
^ HKEY_PERFORMANCE_TEXT.
].
specialKeyStringOrSymbol = #'HKEY_PERFORMANCE_NLSTEXT' ifTrue:[
^ HKEY_PERFORMANCE_NLSTEXT.
].
^ nil
"Created: / 19.5.1999 / 21:40:30 / cg"
"Modified: / 24.12.1999 / 00:02:06 / cg"
!
update:something with:aParameter from:changedObject
"handle image restarts and refetch registry handles"
(something == #returnFromSnapshot) ifTrue:[
self initialize
]
"Created: 15.6.1996 / 15:14:03 / cg"
"Modified: 24.2.1997 / 22:08:05 / cg"
! !
!Win32OperatingSystem::RegistryEntry class methodsFor:'instance creation'!
immediateHandle:aHandleValue
|h newEntry|
aHandleValue isInteger ifTrue:[
h := ExternalAddress newAddress:aHandleValue
] ifFalse:[
h := aHandleValue
].
"/ rootKeys are not registered for RegClose ...
newEntry := self basicNew setHandle:h path:nil.
newEntry registerForFinalization.
^ newEntry.
"
RegistryEntry immediateHandle:16r80000002
"
!
key:aKeyNamePath
"retrieve an entry by full path name (starting at a root)"
|idx first rest root|
HKEY_CLASSES_ROOT isNil ifTrue:[self initialize].
idx := aKeyNamePath indexOf:(self separator).
idx == 0 ifTrue:[
first := aKeyNamePath.
rest := nil.
] ifFalse:[
first := aKeyNamePath copyTo:idx-1.
rest := aKeyNamePath copyFrom:idx+1
].
first := first asUppercase.
"/ the first is a pseudo name
root := self rootKey:first.
root isNil ifTrue:[
^ nil
].
rest size == 0 ifTrue:[
^ root
].
Error handle:[:ex |
^ nil
] do:[
^ root subKeyNamed:rest.
].
"
self key:'HKEY_LOCAL_MACHINE'
self key:'HKEY_LOCAL_MACHINE\Software'
self key:'HKEY_LOCAL_MACHINE\Software\Borland\'
self key:'HKEY_LOCAL_MACHINE\Software\eXept\Smalltalk/X\3.2.5\Directory'
(self key:'HKEY_CLASSES_ROOT\MicrosoftWorks.WordProcessor\CLSID') valueNamed:''
"
"Modified: / 24.12.1999 / 00:01:52 / cg"
!
rootKey:aRootKeyStringOrSymbol
"retrieve one of the root entries by name"
|keyVal|
keyVal := self rootKeyValueFor:aRootKeyStringOrSymbol.
keyVal isNil ifTrue:[^ nil].
"/ rootKeys are not registered for RegClose ...
^ self basicNew setHandle:keyVal path:aRootKeyStringOrSymbol.
"
RegistryEntry rootKey:#'HKEY_LOCAL_MACHINE'
"
! !
!Win32OperatingSystem::RegistryEntry class methodsFor:'misc queries'!
classIDOf:applicationName
|k clsIDString|
k := self key:'HKEY_CLASSES_ROOT\',applicationName,'\CLSID'.
k isNil ifTrue:[ ^ nil ].
clsIDString := k defaultValue.
k close.
^ UUID fromString:clsIDString
"
self classIDOf:'MicrosoftWorks.WordProcessor'
self classIDOf:'AcroPDF.PDF'
self classIDOf:'PDF.PdfCtrl.5'
"
!
commandTemplateToOpenMimeType:mimeType
"given a mimeType, retrieve the command-template of an application for opening the document.
Return nil, if no such application is known.
Do nor use directly - this is a helper for MIMEType"
^ self commandTemplateToOpenSuffix:(self extensionForMimeType:mimeType)
"
Win32OperatingSystem::RegistryEntry commandTemplateToOpenMimeType:'application/pdf'
Win32OperatingSystem::RegistryEntry commandTemplateToOpenMimeType:'audio/mp3'
Win32OperatingSystem::RegistryEntry commandTemplateToOpenMimeType:'video/avi'
Win32OperatingSystem::RegistryEntry commandTemplateToOpenMimeType:'application/x-zip-compressed'
"
!
commandTemplateToOpenSuffix:suffixArg
"given a suffix, retrieve the command template for an application to print the document.
Do nor use directly - this is a helper for MIMEType"
^ self shellCommandTemplateFor:'open' onSuffix:suffixArg
"
self commandTemplateToOpenSuffix:'pdf'
self commandTemplateToOpenSuffix:'zip'
"
!
commandTemplateToPrintMimeType:mimeType
"given a mimeType, retrieve the command-template of an application for printing the document.
Return nil, if no such application is known.
Do nor use directly - this is a helper for MIMEType"
^ self commandTemplateToPrintSuffix:(self extensionForMimeType:mimeType)
"
Win32OperatingSystem::RegistryEntry commandTemplateToPrintMimeType:'application/pdf'
Win32OperatingSystem::RegistryEntry commandTemplateToPrintMimeType:'audio/mp3'
"
!
commandTemplateToPrintSuffix:suffixArg
"given a suffix, retrieve the command template for an application to open the document.
Do nor use directly - this is a helper for MIMEType"
^ self shellCommandTemplateFor:'print' onSuffix:suffixArg
"
self commandTemplateToPrintSuffix:'pdf'
self commandTemplateToPrintSuffix:'zip'
"
!
executableForMimeType:mimeType
"given a mimeType, retrieve the path to an application from the registry"
<resource: #obsolete>
self obsoleteMethodWarning:'use commandTemplateToOpenMimeType:'.
^ self commandTemplateToOpenMimeType:mimeType
"
Win32OperatingSystem::RegistryEntry executableForMimeType:'application/pdf'
Win32OperatingSystem::RegistryEntry executableForMimeType:'audio/mp3'
Win32OperatingSystem::RegistryEntry executableForMimeType:'video/avi'
Win32OperatingSystem::RegistryEntry executableForMimeType:'application/x-zip-compressed'
"
!
executableForSuffix:suffixArg
"given a suffix, retrieve the path to an application from the registry"
<resource: #obsolete>
self obsoleteMethodWarning:'use commandTemplateToOpenSuffix:'.
^ self commandTemplateToOpenSuffix:suffixArg.
"
self executableForSuffix:'pdf'
self executableForSuffix:'zip'
"
!
extensionForMimeType:mimeType
"HELPER: given a mimeType, retrieve the file extension or nil (if unknown)"
|k suffix|
k := self key:'HKEY_CLASSES_ROOT\MIME\Database\Content Type\',mimeType.
k notNil ifTrue:[
suffix := k valueNamed:'extension'.
].
^ suffix
!
shellCommandTemplateFor:operation onSuffix:suffixArg
"HELPER: given a suffix, and an operation, retrieve a command template for an application"
|k fkey cmd suffix redirect|
suffix := suffixArg.
suffix isNil ifTrue:[^ nil].
(suffix startsWith:'.') ifTrue:[
suffix := suffix copyFrom:2
].
k := self key:'HKEY_CLASSES_ROOT\.',suffix.
k notNil ifTrue:[
fkey := (k valueNamed:'').
].
fkey isNil ifTrue:[
fkey := suffix,'_auto_file'
].
fkey notEmptyOrNil ifTrue:[
redirect := nil.
k := Win32OperatingSystem::RegistryEntry key:('HKEY_CLASSES_ROOT\' , fkey , '\CurVer').
k notNil ifTrue:[
redirect := k defaultValue
].
redirect isNil ifTrue:[
k := Win32OperatingSystem::RegistryEntry key:('HKEY_CLASSES_ROOT\' , (fkey) , '\shell\',operation,'\command').
] ifFalse:[
k := Win32OperatingSystem::RegistryEntry key:('HKEY_CLASSES_ROOT\' , (redirect) , '\shell\',operation,'\command').
].
k notNil ifTrue:[
cmd := k defaultValue
].
].
^ cmd
! !
!Win32OperatingSystem::RegistryEntry class methodsFor:'registry access'!
stringValueFor:valueName atKey:keyPath
"convenient accessing method;
Looks for a string value under keyPath;
returns nil if either not found, or no string value"
|k v|
k := self key:keyPath.
k isNil ifTrue:[^ nil].
v := k valueNamed:valueName.
k close.
v isString ifFalse:[^ nil].
^ v
"
self
stringValueFor:'Content Type'
atKey:'HKEY_CLASSES_ROOT\.au'
"
! !
!Win32OperatingSystem::RegistryEntry methodsFor:'accessing'!
handleValue
^ handle address
!
name
"return the keys name component (subKey name within my
parent key)"
|idx|
idx := path lastIndexOf:(self class separator).
idx == 0 ifTrue:[^ path].
^ path copyFrom:idx+1
!
path
"return the keys full key path name"
^ path.
! !
!Win32OperatingSystem::RegistryEntry methodsFor:'accessing subkeys'!
createSubKeyNamed:subKeyString
"create a new key below mySelf and return a new registry entry for it.
If it already exists, return it.
Return nil if the new key cannot be created."
|newEntry subHandle errorNumber|
%{
HKEY myKey, subKey = 0;
int _retVal;
if (__isExternalAddressLike(__INST(handle))
&& __isStringLike(subKeyString)) {
myKey = (HKEY)__externalAddressVal(__INST(handle));
if ((_retVal = RegCreateKey(myKey, __stringVal(subKeyString), &subKey)) == ERROR_SUCCESS) {
subHandle = __MKEXTERNALADDRESS(subKey);
} else {
if ((_retVal != ERROR_PATH_NOT_FOUND)
&& (_retVal != ERROR_FILE_NOT_FOUND)) {
errorNumber = __MKSMALLINT(_retVal);
}
}
}
%}.
subHandle notNil ifTrue:[
newEntry := self class basicNew
setHandle:subHandle
path:(path , self class separator asString , subKeyString).
newEntry registerForFinalization.
^ newEntry.
].
errorNumber notNil ifTrue:[
(OperatingSystem errorHolderForNumber:errorNumber) reportError.
].
^ nil
"
|top sub|
top := self key:'HKEY_LOCAL_MACHINE'.
sub := top createSubKeyNamed:'FooBarBaz'.
"
!
deleteSubKeyNamed:subKeyString
"delete a key below mySelf.
Return true on success."
|errorNumber|
%{
HKEY myKey;
int _retVal;
if (__isExternalAddressLike(__INST(handle))
&& __isStringLike(subKeyString)) {
myKey = (HKEY)__externalAddressVal(__INST(handle));
if ((_retVal = RegDeleteKey(myKey, __stringVal(subKeyString))) == ERROR_SUCCESS) {
RETURN (true);
}
if ((_retVal != ERROR_PATH_NOT_FOUND)
&& (_retVal != ERROR_FILE_NOT_FOUND)) {
errorNumber = __MKSMALLINT(_retVal);
}
}
%}.
errorNumber notNil ifTrue:[
(OperatingSystem errorHolderForNumber:errorNumber) reportError.
].
^ false
"
|top sub|
top := self key:'HKEY_LOCAL_MACHINE'.
sub := top createSubKeyNamed:'FooBarBaz'.
top deleteSubKeyNamed:'FooBarBaz'.
"
!
remoteKeyOnHost:hostName
"return the corresponding registry entry from
a remote computers registry."
|newEntry remoteHandle errorNumber|
%{
HKEY myKey, remoteKey = 0;
int _retVal;
if (__isExternalAddressLike(__INST(handle)) && __isStringLike(hostName)) {
myKey = (HKEY)__externalAddressVal(__INST(handle));
if ((_retVal = RegConnectRegistryA(__stringVal(hostName), myKey, &remoteKey)) == ERROR_SUCCESS) {
remoteHandle = __MKEXTERNALADDRESS(remoteKey);
} else {
if ((_retVal != ERROR_PATH_NOT_FOUND)
&& (_retVal != ERROR_FILE_NOT_FOUND)) {
errorNumber = __MKSMALLINT(_retVal);
}
}
}
%}.
remoteHandle notNil ifTrue:[
newEntry := self class basicNew setHandle:remoteHandle path:path.
newEntry registerForFinalization.
^ newEntry.
].
errorNumber notNil ifTrue:[
(OperatingSystem errorHolderForNumber:errorNumber) reportError.
].
^ nil
"
|top remote|
top := self key:'HKEY_LOCAL_MACHINE'.
remote := top remoteKeyOnHost:'BETTI'
"
"
|top remote|
top := self key:'HKEY_USERS'.
remote := top remoteKeyOnHost:'BETTI'
"
"
|top remote|
top := self key:'HKEY_LOCAL_MACHINE'.
remote := top remoteKeyOnHost:'JOSHUA'
"
"
|top remote|
top := self key:'HKEY_USERS'.
remote := top remoteKeyOnHost:'JOSHUA'
"
!
subKeyAtIndex:subKeyIndex
"return a new registry entry below mySelf for the given subKey index.
Return nil if no such key exists"
|subKeyName subKeyClassName errorNumber|
%{
HKEY myKey, subKey = 0;
char nameBuffer[256];
DWORD nameSize = sizeof(nameBuffer) - 1;
char classNameBuffer[256];
DWORD classNameSize = sizeof(classNameBuffer) - 1;
FILETIME modificationTime;
int _retVal;
if (__isExternalAddressLike(__INST(handle))
&& __isSmallInteger(subKeyIndex)) {
myKey = (HKEY)__externalAddressVal(__INST(handle));
if ((_retVal = RegEnumKeyExA(myKey, __intVal(subKeyIndex),
nameBuffer, &nameSize,
NULL,
classNameBuffer, &classNameSize,
&modificationTime)) == ERROR_SUCCESS) {
nameBuffer[nameSize] = '\0';
classNameBuffer[classNameSize] = '\0';
subKeyName = __MKSTRING(nameBuffer);
subKeyClassName = __MKSTRING(classNameBuffer);
} else {
if ((_retVal != ERROR_PATH_NOT_FOUND)
&& (_retVal != ERROR_FILE_NOT_FOUND)
&& (_retVal != ERROR_NO_MORE_ITEMS)) {
errorNumber = __MKSMALLINT(_retVal);
}
}
}
%}.
subKeyName notNil ifTrue:[
^ self subKeyNamed:subKeyName.
].
errorNumber notNil ifTrue:[
(OperatingSystem errorHolderForNumber:errorNumber) reportError.
].
^ nil
"
|top sub|
top := self key:'HKEY_LOCAL_MACHINE'.
sub := top subKeyAtIndex:0
"
!
subKeyNamed:subKeyString
"return a new registry entry below mySelf with the given subKey.
Return nil if no such key exists"
|newEntry subHandle errorNumber|
%{
HKEY myKey, subKey = 0;
int _retVal;
if (__isExternalAddressLike(__INST(handle))
&& __isStringLike(subKeyString)) {
myKey = (HKEY)__externalAddressVal(__INST(handle));
_retVal = RegOpenKey(myKey, __stringVal(subKeyString), &subKey);
if (_retVal == ERROR_SUCCESS) {
subHandle = __MKEXTERNALADDRESS(subKey);
} else {
if ((_retVal != ERROR_PATH_NOT_FOUND)
&& (_retVal != ERROR_FILE_NOT_FOUND)) {
errorNumber = __MKSMALLINT(_retVal);
}
}
}
%}.
subHandle notNil ifTrue:[
newEntry := self class basicNew
setHandle:subHandle
path:((path ? '?') , self class separator asString , subKeyString).
newEntry registerForFinalization.
^ newEntry.
].
errorNumber notNil ifTrue:[
(OperatingSystem errorHolderForNumber:errorNumber) reportError.
].
^ nil
"
|top sub|
top := self key:'HKEY_LOCAL_MACHINE'.
sub := top subKeyNamed:'Software'
"
! !
!Win32OperatingSystem::RegistryEntry methodsFor:'accessing values'!
defaultValue
^ self valueNamed:''
"
(self key:'HKEY_CLASSES_ROOT\MicrosoftWorks.WordProcessor\CLSID') defaultValue
"
!
defaultValue:datum
"store a value; the value type depends upon the stored value:
ByteArray -> REG_BINARY
String -> REG_SZ
Array of string -> REG_MULTI_SZ
Integer -> REG_DWORD
nil -> REG_NONE
"
^ self valueNamed:'' put:datum
"
(self key:'HKEY_CLASSES_ROOT\MicrosoftWorks.WordProcessor\CLSID') defaultValue
"
!
deleteValueNamed:aValueName
"delete a value.
Return true on success."
|errorNumber|
%{
HKEY myKey;
int _retVal;
if (__isExternalAddressLike(__INST(handle))
&& __isStringLike(aValueName)) {
myKey = (HKEY)__externalAddressVal(__INST(handle));
if ((_retVal = RegDeleteValue(myKey, __stringVal(aValueName))) == ERROR_SUCCESS) {
RETURN (true);
}
if ((_retVal != ERROR_PATH_NOT_FOUND)
&& (_retVal != ERROR_FILE_NOT_FOUND)) {
errorNumber = __MKSMALLINT(_retVal);
}
}
%}.
errorNumber notNil ifTrue:[
(OperatingSystem errorHolderForNumber:errorNumber) reportError.
].
^ false
!
valueNameAtIndex:valueIndex
"return a values name for the given value index.
Return nil if no such value exists"
|valueName errorNumber|
%{
HKEY myKey;
char nameBuffer[256];
DWORD nameSize = sizeof(nameBuffer) - 1;
DWORD valueType;
int _retVal;
if (__isExternalAddressLike(__INST(handle))
&& __isSmallInteger(valueIndex)) {
myKey = (HKEY)__externalAddressVal(__INST(handle));
if ((_retVal = RegEnumValueA(myKey, __intVal(valueIndex),
nameBuffer, &nameSize,
NULL,
&valueType,
NULL, NULL)) == ERROR_SUCCESS) {
nameBuffer[nameSize] = '\0';
valueName = __MKSTRING(nameBuffer);
} else {
if ((_retVal != ERROR_PATH_NOT_FOUND)
&& (_retVal != ERROR_FILE_NOT_FOUND)) {
errorNumber = __MKSMALLINT(_retVal);
}
}
}
%}.
errorNumber notNil ifTrue:[
(OperatingSystem errorHolderForNumber:errorNumber) reportError.
].
^ valueName
"
|top sub|
top := self key:'HKEY_LOCAL_MACHINE'.
sub := top subKeyAtIndex:0
"
!
valueNamed:aValueName
"retrieve a value; the returned object depends upon the type:
REG_BINARY -> ByteArray
REG_SZ -> String
REG_MULTI_SZ -> Array of strings
REG_DWORD -> Integer
REG_NONE -> nil
"
|stringArray retVal errorNumber|
%{
HKEY myKey;
DWORD valueType;
union {
DWORD dWord;
unsigned char dWordBytes[4];
unsigned char smallDataBuffer[1024*128];
} quickData;
int val;
DWORD dataSize = sizeof(quickData);
unsigned char *dataBuffer = NULL;
#define xxUSE_UNICODE
#ifdef USE_UNICODE
# define xRegQueryValueEx RegQueryValueExW
# define CHAR short
#else
# define RegQueryValueEx RegQueryValueExA
# define CHAR char
#endif
if (__isExternalAddressLike(__INST(handle))
&& __isStringLike(aValueName)) {
int ret;
myKey = (HKEY)__externalAddressVal(__INST(handle));
/*
* try to get it with one call ...
*/
ret = RegQueryValueEx(myKey, __stringVal(aValueName),
NULL,
&valueType,
(char *)&quickData,
&dataSize);
#if 0
console_printf("dataSize=%d\n", dataSize);
#endif
while (ret == ERROR_MORE_DATA) {
#if 0
console_printf("ERROR_MORE_DATA dataSize=%d\n", dataSize);
console_printf("valueType=%d\n", valueType);
#endif
/*
* nope - need another one ...
*/
if (myKey = HKEY_PERFORMANCE_DATA) {
dataSize = dataSize * 2;
}
switch (valueType) {
case REG_BINARY:
case REG_MULTI_SZ:
dataBuffer = malloc(dataSize);;
break;
case REG_SZ:
dataBuffer = malloc(dataSize);
break;
default:
console_printf("RegistryEntry [warning]: unhandled valueType: %d\n", valueType);
break;
}
if (dataBuffer) {
ret = RegQueryValueEx(myKey, __stringVal(aValueName),
NULL,
&valueType,
dataBuffer,
&dataSize);
} else {
break;
}
if (myKey != HKEY_PERFORMANCE_DATA) {
if (ret != ERROR_SUCCESS) break;
}
}
if (ret == ERROR_SUCCESS) {
#if 0
console_printf("ERROR_SUCCESS dataSize=%d\n", dataSize);
console_printf("valueType=%d\n", valueType);
#endif
switch (valueType) {
case REG_NONE:
/* RETURN (@symbol(none)); */
retVal = nil;
break;
case REG_BINARY:
retVal = __MKBYTEARRAY(dataBuffer ? dataBuffer : quickData.smallDataBuffer, dataSize);
break;
case REG_SZ:
case REG_EXPAND_SZ:
#ifdef USE_UNICODE
retVal = __MKU16STRING(dataBuffer ? dataBuffer : quickData.smallDataBuffer);
#else
retVal = __MKSTRING(dataBuffer ? dataBuffer : quickData.smallDataBuffer);
#endif
break;
#if 0
case REG_DWORD:
/* int in native format */
retVal = __MKUINT(quickData.dWord);
break;
#endif
case REG_DWORD_LITTLE_ENDIAN:
val = quickData.dWordBytes[3];
val = (val << 8) | quickData.dWordBytes[2];
val = (val << 8) | quickData.dWordBytes[1];
val = (val << 8) | quickData.dWordBytes[0];
retVal = __MKUINT(val);
break;
case REG_DWORD_BIG_ENDIAN:
val = quickData.dWordBytes[0];
val = (val << 8) | quickData.dWordBytes[1];
val = (val << 8) | quickData.dWordBytes[2];
val = (val << 8) | quickData.dWordBytes[3];
retVal = __MKUINT(val);
break;
case REG_MULTI_SZ:
{
CHAR *cp, *cp0;
int ns, i;
cp0 = dataBuffer ? dataBuffer : quickData.smallDataBuffer;
#if 0
console_printf("**************\n");
for (i=0;i<50;i++) {
console_printf("%x ", cp0[i]);
}
console_printf("\n");
for (i=0;i<50;i++) {
if (cp0[i] == 0)
console_printf("\n");
else
console_printf("%c", cp0[i]);
}
console_printf("\n");
console_printf("**************\n");
#endif
cp = cp0;
ns = 0;
while (*cp) {
while (*cp++) ;;
ns++;
}
stringArray = __ARRAY_NEW_INT(ns);
i = 0;
while (*cp0) {
OBJ s;
CHAR *cp;
cp = cp0;
while (*cp++) ;;
#ifdef USE_UNICODE
s = __MKU16STRING(cp0); __ArrayInstPtr(stringArray)->a_element[i] = s; __STORE(stringArray, s);
#else
s = __MKSTRING(cp0); __ArrayInstPtr(stringArray)->a_element[i] = s; __STORE(stringArray, s);
#endif
cp0 = cp;
i++;
}
retVal = stringArray;
break;
}
default:
console_printf("RegistryEntry [warning]: unhandled valueType: %d\n", valueType);
break;
}
} else {
if ((ret != ERROR_PATH_NOT_FOUND)
&& (ret != ERROR_FILE_NOT_FOUND)) {
errorNumber = __MKSMALLINT(ret);
}
}
}
if (dataBuffer) free(dataBuffer);
%}.
errorNumber notNil ifTrue:[
(OperatingSystem errorHolderForNumber:errorNumber) reportError.
].
^ retVal
"
|key|
key := self key:'HKEY_LOCAL_MACHINE\SOFTWARE\eXept\Smalltalk/X'.
key valueNamed:'CurrentVersion'
"
!
valueNamed:aValueName put:datum
"store a value; the value type depends upon the stored value:
ByteArray -> REG_BINARY
String -> REG_SZ
Array of string -> REG_MULTI_SZ
Integer -> REG_DWORD
nil -> REG_NONE
"
|data stringArray errorNumber|
%{
HKEY myKey;
DWORD valueType = -1;
int val;
DWORD dataSize = -1;
unsigned char *dataPointer = NULL;
int datumOk = 1, mustFreeData = 0;
if (__isExternalAddressLike(__INST(handle))
&& __isStringLike(aValueName)) {
int ret;
OBJ cls;
myKey = (HKEY)__externalAddressVal(__INST(handle));
if (datum == nil) {
valueType = REG_NONE;
dataSize = 0;
} else if (__isSmallInteger(datum)) {
valueType = REG_DWORD;
val = __intVal(datum);
dataPointer = (unsigned char *)(&val);
dataSize = sizeof(val);
} else if (__isStringLike(datum)) {
valueType = REG_SZ;
dataPointer = __stringVal(datum);
dataSize = __stringSize(datum) + 1;
} else if (__Class(datum) == ByteArray) {
valueType = REG_BINARY;
dataPointer = __ByteArrayInstPtr(datum)->ba_element;
dataSize = __byteArraySize(datum);
} else if (__Class(datum) == LargeInteger) {
valueType = REG_DWORD;
val = __longIntVal(datum);
if (val) {
dataPointer = (unsigned char *)(&val);
dataSize = sizeof(val);
} else {
datumOk = 0;
}
} else if (__Class(datum) == Array) {
int i = 0, ns = 0, totalSize = 0;
valueType = REG_MULTI_SZ;
/*
* must allocate a local buffer
* find size ...
*/
for (i=0; i<__arraySize(datum); i++) {
OBJ s = __ArrayInstPtr(datum)->a_element[i];
if (__isStringLike(s)) {
totalSize += __stringSize(s) + 1;
} else {
datumOk = 0;
break;
}
ns++;
}
if (datumOk) {
char *cp;
/*
* allocate and fill...
*/
totalSize ++;
dataPointer = (char *)(malloc(totalSize));
mustFreeData = 1;
cp = dataPointer;
for (i=0; i<__arraySize(datum); i++) {
OBJ s = __ArrayInstPtr(datum)->a_element[i];
strcpy(cp, __stringVal(s));
cp += __stringSize(s);
*cp++ = '\0';
}
*cp++ = '\0';
dataSize = totalSize;
}
} else {
datumOk = 0;
}
if (datumOk) {
ret = RegSetValueExA(myKey, __stringVal(aValueName),
0, valueType,
dataPointer, dataSize);
if (mustFreeData) {
free(dataPointer);
}
if (ret == ERROR_SUCCESS) {
RETURN (true);
}
if ((ret != ERROR_PATH_NOT_FOUND)
&& (ret != ERROR_FILE_NOT_FOUND)) {
errorNumber = __MKSMALLINT(ret);
}
}
}
%}.
errorNumber notNil ifTrue:[
(OperatingSystem errorHolderForNumber:errorNumber) reportError.
].
^ false
"
|key|
key := self key:'HKEY_LOCAL_MACHINE\SOFTWARE\eXept\Smalltalk/X'.
key valueNamed:'CurrentVersion' put:'3.5.2'
"
! !
!Win32OperatingSystem::RegistryEntry methodsFor:'enumeration'!
allSubKeysDo:aBlock
"recursively evaluate aBlock for all subKeys below the receiver"
|idx subEntry|
idx := 0.
[true] whileTrue:[
subEntry := self subKeyAtIndex:idx.
subEntry isNil ifTrue:[
^self
].
aBlock value:subEntry.
subEntry allSubKeysDo:aBlock.
subEntry close.
idx := idx + 1.
]
"
|top sub|
top := self key:'HKEY_LOCAL_MACHINE'.
top allSubKeysDo:[:subEntry |
Transcript showCR:subEntry path
]
"
!
subKeys
"return a collection of subKeys below the receiver"
|idx subEntry subKeys|
subKeys := OrderedCollection new.
self subKeysDo:[:k | subKeys add:k].
^ subKeys
"
|top sub|
top := self key:'HKEY_LOCAL_MACHINE'.
top subKeys
"
"Created: / 23.12.1999 / 22:15:22 / cg"
"Modified: / 23.12.1999 / 22:15:44 / cg"
!
subKeysDo:aBlock
"evaluate aBlock for all subKeys below the receiver"
|idx subEntry|
idx := 0.
[true] whileTrue:[
subEntry := self subKeyAtIndex:idx.
subEntry isNil ifTrue:[
^self
].
aBlock value:subEntry.
subEntry close.
idx := idx + 1.
]
"
|top sub|
top := self key:'HKEY_LOCAL_MACHINE'.
top subKeysDo:[:subEntry |
Transcript showCR:subEntry path
]
"
!
valueNamesAndValuesDo:aBlock
"evaluate aBlock for all value names"
self valueNamesDo:[:nm |
aBlock value:nm value:(self valueNamed:nm)
]
"
|key|
key := self key:'HKEY_LOCAL_MACHINE\SOFTWARE\eXept\Smalltalk/X'.
key valueNamesAndValuesDo:[:nm :val |
Transcript showCR:(nm , ' -> ' , val storeString).
]
"
!
valueNamesDo:aBlock
"evaluate aBlock for all value names"
|idx valueName|
idx := 0.
[true] whileTrue:[
valueName := self valueNameAtIndex:idx.
valueName isNil ifTrue:[
^self
].
aBlock value:valueName.
idx := idx + 1.
]
! !
!Win32OperatingSystem::RegistryEntry methodsFor:'instance release'!
close
"close mySelf"
self closeKey.
self unregisterForFinalization.
!
closeKey
"close mySelf"
%{
HKEY myKey;
if (__isExternalAddressLike(__INST(handle))) {
myKey = (HKEY)(__externalAddressVal(__INST(handle)));
__INST(handle) = nil;
RegCloseKey(myKey);
}
%}
!
finalizationLobby
^ Lobby
!
finalize
"some entry has been collected - close it"
handle notNil ifTrue:[
self closeKey.
]
"Created: / 19.5.1999 / 22:39:52 / cg"
"Modified: / 19.5.1999 / 22:44:50 / cg"
! !
!Win32OperatingSystem::RegistryEntry methodsFor:'printing & storing'!
printOn:aStream
aStream
nextPutAll:self className;
nextPut:$(;
nextPutAll:path;
nextPut:$).
! !
!Win32OperatingSystem::RegistryEntry methodsFor:'private'!
setHandle:aHandle path:aPathString
handle := aHandle.
path := aPathString.
"Created: / 19.5.1999 / 22:27:05 / cg"
!
setupForHandleValue:integerHandleValue
"not normally used - given an integer address,
return a registry entry. This is provided to
allow for future root keys to be added at the smalltalk level"
%{
HKEY key;
OBJ t;
key = __longIntVal(integerHandleValue);
if (! key) {
RETURN (nil);
}
t = __MKEXTERNALADDRESS(key); __INST(handle) = t; __STORE(self, t);
%}.
"Created: / 19.5.1999 / 21:45:05 / cg"
! !
!Win32OperatingSystem::TextMetricsStructure class methodsFor:'instance creation'!
new
^super new: self sizeInBytes
"Created: / 02-08-2006 / 16:20:02 / fm"
!
sizeInBytes
^53
"Created: / 02-08-2006 / 16:20:09 / fm"
! !
!Win32OperatingSystem::TextMetricsStructure methodsFor:'accessing'!
tmDefaultChar
^self byteAt: 46 + 1
"Created: / 02-08-2006 / 16:15:35 / fm"
!
tmExternalLeading
^self longAt: 16 + 1
"Created: / 02-08-2006 / 16:17:11 / fm"
!
tmHeight
^self longAt: 0 + 1
"Created: / 02-08-2006 / 16:16:38 / fm"
! !
!Win32OperatingSystem::Win32IOHandle class methodsFor:'documentation'!
documentation
"
I represent a handle on which I/O is possible.
Typical instances are File-Handles, Socket-Handles etc.
"
! !
!Win32OperatingSystem::Win32IOHandle methodsFor:'finalization'!
finalize
"a handle was garbage collected - close the underlying file"
self closeFile
! !
!Win32OperatingSystem::Win32IOHandle methodsFor:'io'!
readBytes:count into:aByteBuffer startingAt:firstIndex
"read count bytes into a byte-buffer;
Return the number of bytes read (negative on error)"
|errSym errorNumber|
%{
unsigned char *extPtr;
int bufferIsExternalBytes;
int mustFreeBuffer = 0;
int nRead = -1;
HANDLE hFile = (HANDLE)(__externalAddressVal(self));
DWORD cntWanted, offs, cntRead;
int bufferSize;
char miniBuffer[32];
BOOL ok;
if ((hFile == 0) || (hFile == INVALID_HANDLE_VALUE)) {
errSym = @symbol(errorNotOpen);
goto bad;
}
if (! __bothSmallInteger(count, firstIndex)) {
errSym = @symbol(badArgument);
goto bad;
}
cntWanted = __smallIntegerVal(count);
if (cntWanted <= 0) {
errSym = @symbol(badCount);
goto bad;
}
offs = __smallIntegerVal(firstIndex) - 1;
if (offs < 0) {
errSym = @symbol(badOffset);
goto bad;
}
bufferIsExternalBytes = __isExternalBytesLike(aByteBuffer);
if (! bufferIsExternalBytes) {
if (__isByteArray(aByteBuffer)) {
bufferSize = __byteArraySize(aByteBuffer);
} else if (__isString(aByteBuffer)) { // not isStringLike here !
bufferSize = __stringSize(aByteBuffer);
} else {
errSym = @symbol(badBuffer);
goto bad;
}
if (bufferSize < (cntWanted + offs)) {
errSym = @symbol(badBufferSize);
goto bad;
}
if (cntWanted <= sizeof(miniBuffer)) {
extPtr = miniBuffer;
} else {
extPtr = malloc(cntWanted);
mustFreeBuffer = 1;
}
} else {
OBJ sz;
extPtr = (char *)(__externalBytesAddress(aByteBuffer));
sz = __externalBytesSize(aByteBuffer);
if (! __isSmallInteger(sz)) {
errSym = @symbol(badBufferSize);
goto bad;
}
bufferSize = __smallIntegerVal(sz);
if (bufferSize < (cntWanted + offs)) {
errSym = @symbol(badBufferSize);
goto bad;
}
extPtr = extPtr + offs;
}
do {
__threadErrno = 0;
ok = STX_API_NOINT_CALL5( "ReadFile", ReadFile, hFile, extPtr, cntWanted, &cntRead, 0 /* lpOverlapped */);
} while(__threadErrno == EINTR);
if (ok == TRUE) {
if (! bufferIsExternalBytes) {
/* copy over */
memcpy(__byteArrayVal(aByteBuffer)+offs, extPtr, cntRead);
if (mustFreeBuffer) {
free(extPtr);
}
}
RETURN (__mkSmallInteger(cntRead));
}
errorNumber = __mkSmallInteger( __WIN32_ERR(GetLastError()) );
bad: ;
if (mustFreeBuffer) {
free(extPtr);
}
%}.
errorNumber isNil ifTrue:[
self error:'invalid argument(s): ', errSym.
] ifFalse:[
(OperatingSystem errorHolderForNumber:errorNumber) reportError
].
"
|h buff n|
h := self basicNew.
buff := ByteArray new:10.
n := h readBytes:10 into:buff startingAt:1.
Transcript show:n; show:' '; showCR:buff.
"
!
readWaitWithTimeoutMs:millis
"return true if a timeout occurred"
|errSym errorNumber|
%{
HANDLE hFile = (HANDLE)(__externalAddressVal(self));
DWORD res;
INT t;
if ((hFile == 0) || (hFile == INVALID_HANDLE_VALUE)) {
errSym = @symbol(errorNotOpen);
goto bad;
}
#if 0
if (ioctlsocket((SOCKET)hFile, FIONREAD, &res)==0) {
/* its a socket */
if (res > 0) {
RETURN ( false );
}
}
if (PeekNamedPipe(hFile, 0, 0, 0, &res, 0)) {
/* its a namedPipe */
if (res > 0) {
RETURN ( false );
}
}
#endif
if (__isSmallInteger(millis)) {
t = __intVal(millis);
} else {
t = INFINITE;
}
do {
__threadErrno = 0;
res = WaitForSingleObject(hFile, t);
} while (__threadErrno == EINTR);
switch (res) {
case WAIT_OBJECT_0:
/* signalled */
RETURN ( false );
case WAIT_TIMEOUT:
/* signalled */
RETURN ( true );
default:
case WAIT_ABANDONED:
errorNumber = __mkSmallInteger( __WIN32_ERR(GetLastError()) );
goto bad;
}
bad: ;
%}.
"
timeout argument not integer,
or any fd-array nonNil and not an array
or not supported by OS
"
^ self primitiveFailed
!
seekTo:newPosition from:whence
"whence is one of:
#begin
#current
#end
"
|errSym errorNumber|
%{
HANDLE hFile = (HANDLE)(__externalAddressVal(self));
DWORD moveHow;
LONG posLo, posHi = 0;
__uint64__ pos64, newPos64;
if ((hFile == 0) || (hFile == INVALID_HANDLE_VALUE)) {
errSym = @symbol(errorNotOpen);
goto bad;
}
if (whence == @symbol(begin)) {
moveHow = FILE_BEGIN;
} else if (whence == @symbol(current)) {
moveHow = FILE_CURRENT;
} else if (whence == @symbol(end)) {
moveHow = FILE_END;
} else {
errSym = @symbol(badArgument2);
goto bad;
}
if (__signedLong64IntVal(newPosition, &pos64) == 0) {
errSym = @symbol(badArgument);
goto bad;
}
posLo = pos64.lo;
posHi = pos64.hi;
posLo = SetFilePointer(hFile, posLo, &posHi, moveHow);
if (posLo == 0xFFFFFFFF) {
int lastError;
/* can be either an error, or a valid low-word */
lastError = GetLastError();
if (lastError != NO_ERROR) {
errorNumber = __mkSmallInteger( __WIN32_ERR(lastError) );
goto bad;
}
}
if (posHi == 0) {
RETURN (__MKUINT( posLo ));
}
newPos64.lo = posLo;
newPos64.hi = posHi;
RETURN ( __MKUINT64(&newPos64) );
bad: ;
%}.
errorNumber isNil ifTrue:[
self error:'invalid argument(s): ', errSym.
] ifFalse:[
(OperatingSystem errorHolderForNumber:errorNumber) reportError
].
!
writeBytes:count from:aByteBuffer startingAt:firstIndex
"write count bytes from a byte-buffer;
Return the number of bytes written (negative on error)"
|errSym errorNumber|
%{
unsigned char *extPtr;
int bufferIsExternalBytes;
int mustFreeBuffer = 0;
int nWritten = -1;
HANDLE hFile = (HANDLE)(__externalAddressVal(self));
DWORD cntWanted, offs, cntWritten;
int bufferSize;
char miniBuffer[32];
BOOL ok;
if ((hFile == 0) || (hFile == INVALID_HANDLE_VALUE)) {
errSym = @symbol(errorNotOpen);
goto bad;
}
if (! __bothSmallInteger(count, firstIndex)) {
errSym = @symbol(badArgument);
goto bad;
}
cntWanted = __smallIntegerVal(count);
if (cntWanted <= 0) {
errSym = @symbol(badCount);
goto bad;
}
offs = __smallIntegerVal(firstIndex) - 1;
if (offs < 0) {
errSym = @symbol(badOffset);
goto bad;
}
bufferIsExternalBytes = __isExternalBytesLike(aByteBuffer);
if (! bufferIsExternalBytes) {
if (__isByteArray(aByteBuffer)) {
bufferSize = __byteArraySize(aByteBuffer);
} else if (__isStringLike(aByteBuffer)) {
bufferSize = __stringSize(aByteBuffer);
} else {
errSym = @symbol(badBuffer);
goto bad;
}
if (bufferSize < (cntWanted + offs)) {
errSym = @symbol(badBufferSize);
goto bad;
}
if (cntWanted <= sizeof(miniBuffer)) {
extPtr = miniBuffer;
} else {
extPtr = malloc(cntWanted);
mustFreeBuffer = 1;
}
memcpy(extPtr, __byteArrayVal(aByteBuffer)+offs, cntWanted);
} else {
extPtr = (char *)(__externalBytesAddress(aByteBuffer));
bufferSize = __externalBytesSize(aByteBuffer);
if (! __isSmallInteger(bufferSize)) {
errSym = @symbol(badBufferSize);
goto bad;
}
bufferSize = __smallIntegerVal(bufferSize);
if (bufferSize < (cntWanted + offs)) {
errSym = @symbol(badBufferSize);
goto bad;
}
extPtr = extPtr + offs;
}
do {
__threadErrno = 0;
ok = STX_API_NOINT_CALL5( "WriteFile", WriteFile, hFile, extPtr, cntWanted, &cntWritten, 0 /* lpOverlapped */);
} while(__threadErrno == EINTR);
if (ok == TRUE) {
if (mustFreeBuffer) {
free(extPtr);
}
RETURN (__mkSmallInteger(cntWritten));
}
errorNumber = __mkSmallInteger( __WIN32_ERR(GetLastError()) );
bad: ;
if (mustFreeBuffer) {
free(extPtr);
}
%}.
errorNumber isNil ifTrue:[
self error:'invalid argument(s): ', errSym.
] ifFalse:[
(OperatingSystem errorHolderForNumber:errorNumber) reportError
].
"
|h buff n|
h := self basicNew.
h setFileDescriptor:1.
buff := '12345678901234567890'.
n := h writeBytes:10 from:buff startingAt:1.
"
! !
!Win32OperatingSystem::Win32IOHandle methodsFor:'release'!
close
"close the file"
self closeFile.
self unregisterForFinalization.
!
closeFile
"close the handle"
%{
HANDLE h = (HANDLE)(__externalAddressVal(self));
if (h) {
__externalAddressVal(self) = (HANDLE)0;
CloseHandle(h);
}
%}.
! !
!Win32OperatingSystem::Win32PrinterHandle methodsFor:'release'!
closeHandle
self address ~~ 0 ifTrue:[
OperatingSystem primClosePrinter:self.
]
"Created: / 27-07-2006 / 14:48:37 / fm"
! !
!Win32OperatingSystem::Win32ProcessHandle methodsFor:'accessing'!
pid
^ pid
! !
!Win32OperatingSystem::Win32ProcessHandle methodsFor:'printing & storing'!
printOn:aStream
"return a printed representation of the receiver"
super printOn:aStream.
aStream nextPutAll:' pid:'.
pid printOn:aStream.
! !
!Win32OperatingSystem::Win32SerialPortHandle methodsFor:'opening'!
open:portName baudRate:baudRate stopBitsType:stopBitsType
parityType:parityType dataBits:dataBits
inFlowCtrl:inFlowCtrlType outFlowCtrl:outFlowCtrlType
xOnChar:xOnChar xOffChar:xOffChar
"portName: COM%d
baudRate: Integer
stopBitsType: #stop1, #stop2 or #stop1_5
parityType: #odd, #even or #none
dataBits: #integer
inFlowCtrlType: #xOnOff #hardware
outFlowCtrlType: #xOnOff #hardware
xOnChar: Character or Integer
xOffChar: Character or Integer"
|errorNumber|
%{
HANDLE port;
COMMTIMEOUTS timeouts;
DCB dcb;
char *__portName;
int __setBaudRate = 1,
__setDataBits = 1,
__setXOnChar = 1,
__setXOffChar = 1,
__setInFlowCtrl = 1,
__setOutFlowCtrl = 1,
__setStopBits = 1,
__setParityType = 1;
int __baudRate, __dataBits;
int __xOnChar, __xOffChar;
int __inFlowCtrl, __outFlowCtrl;
int __stopBits, __parityType;
# define XONOFF 1
# define HARDWARE 2
# define STOP1 1
# define STOP2 2
# define STOP1_5 3
# define ODD 1
# define EVEN 2
# define NONE 3
if (__isStringLike(portName)) {
__portName = __stringVal(portName);
} else {
goto failure;
}
if (__isSmallInteger(baudRate)) {
__baudRate = __intVal(baudRate);
} else if (baudRate == nil) {
__setBaudRate = 0;
} else {
goto failure;
}
if (__isSmallInteger(dataBits)) {
__dataBits = __intVal(dataBits);
} else if (dataBits == nil) {
__setDataBits = 0;
} else {
goto failure;
}
if (__isSmallInteger(xOnChar)) {
__xOnChar = __intVal(xOnChar);
} else if (__isCharacter(xOnChar)) {
__xOnChar = __intVal(_characterVal(xOnChar));
} else if (xOnChar == nil) {
__setXOnChar = 0;
} else {
goto failure;
}
if (__isSmallInteger(xOffChar)) {
__xOffChar = __intVal(xOffChar);
} else if (__isCharacter(xOffChar)) {
__xOffChar = __intVal(_characterVal(xOffChar));
} else if (xOffChar == nil) {
__setXOffChar = 0;
} else {
goto failure;
}
if (inFlowCtrlType == @symbol(xOnOff)) {
__inFlowCtrl = XONOFF;
} else if (inFlowCtrlType == @symbol(hardware)) {
__inFlowCtrl = HARDWARE;
} else if (inFlowCtrlType == nil) {
__setInFlowCtrl = 0;
} else {
goto failure;
}
if (outFlowCtrlType == @symbol(xOnOff)) {
__outFlowCtrl = XONOFF;
} else if (outFlowCtrlType == @symbol(hardware)) {
__outFlowCtrl = HARDWARE;
} else if (outFlowCtrlType == nil) {
__setOutFlowCtrl = 0;
} else {
goto failure;
}
if (stopBitsType == @symbol(stop1)) {
__stopBits = STOP1;
} else if (stopBitsType == @symbol(stop2)) {
__stopBits = STOP2;
} else if (stopBitsType == @symbol(stop1_5)) {
__stopBits = STOP1_5;
} else if (stopBitsType == nil) {
__setStopBits = 0;
} else {
goto failure;
}
port = CreateFile(__portName,
GENERIC_READ | GENERIC_WRITE,
0, /* comm devices must be opened with exclusive access */
NULL, /* no security attrs */
OPEN_EXISTING, /* comm devices must use OPEN_EXISTING */
0, /* no overlapped I/O */
NULL /* hTemplate must be NULL for comm devices */
);
if (port == INVALID_HANDLE_VALUE) {
console_fprintf(stderr, "Win32OS [info]: serial port open failed\n");
errorNumber = __mkSmallInteger( __WIN32_ERR(GetLastError()) );
goto failure;
}
/* Flush the driver */
PurgeComm( port, PURGE_TXABORT | PURGE_RXABORT | PURGE_TXCLEAR | PURGE_RXCLEAR );
/* Set driver buffer sizes */
SetupComm( port, 4096 /*SERIAL_IN_QUEUE_SIZE*/, 4096 /*SERIAL_OUT_QUEUE_SIZE*/);
/* Reset timeout constants */
timeouts.ReadIntervalTimeout= 0xFFFFFFFF;
timeouts.ReadTotalTimeoutMultiplier = 0;
timeouts.ReadTotalTimeoutConstant = 0;
timeouts.WriteTotalTimeoutMultiplier = 0;
timeouts.WriteTotalTimeoutConstant = 0;
SetCommTimeouts( port, &timeouts );
/* Set communication parameters */
ZeroMemory(&dcb, sizeof(dcb));
dcb.DCBlength = sizeof(dcb);
GetCommState(port, &dcb);
if (__setBaudRate) dcb.BaudRate = __baudRate;
if (__setDataBits) dcb.ByteSize = __dataBits;
if (__setXOnChar) dcb.XonChar = __xOnChar;
if (__setXOffChar) dcb.XoffChar = __xOffChar;
if (__setStopBits) {
/* set stop bits */
switch(__stopBits) {
case STOP1_5: dcb.StopBits = 1; break; /* 1.5 stop bits */
case STOP1: dcb.StopBits = 0; break; /* 1 stop bit */
case STOP2: dcb.StopBits = 2; break; /* 2 stop bits */
default: goto errExit;
}
}
if (__setParityType) {
/* set parity */
switch(__parityType) {
case NONE: dcb.Parity = NOPARITY; break;
case ODD: dcb.Parity = ODDPARITY; break;
case EVEN: dcb.Parity = EVENPARITY; break;
default: goto errExit;
}
}
if (__setInFlowCtrl) {
/* set control flow */
dcb.fInX = FALSE;
dcb.fDtrControl = FALSE;
if (__inFlowCtrl == XONOFF) dcb.fInX = TRUE; /* XOn/XOff handshaking */
if (__inFlowCtrl == HARDWARE) dcb.fDtrControl = TRUE; /* hardware handshaking */
}
if (__setOutFlowCtrl) {
dcb.fOutX = FALSE;
dcb.fOutxCtsFlow = FALSE;
if (__outFlowCtrl == XONOFF) dcb.fOutX = TRUE; /* XOn/XOff handshaking */
if (__outFlowCtrl == HARDWARE) dcb.fOutxCtsFlow = TRUE; /* hardware handshaking */
}
if (SetCommState(port, &dcb)) {
RETURN( true );
}
console_fprintf(stderr, "Win32OS [info]: serial port comm-setup failed\n");
errorNumber = __mkSmallInteger( __WIN32_ERR(GetLastError()) );
/* fall into */
errExit: ;
CloseHandle(port);
failure: ;
# undef XONOFF
# undef HARDWARE
# undef STOP1
# undef STOP2
# undef STOP1_5
# undef ODD
# undef EVEN
# undef NONE
%}.
errorNumber isNil ifTrue:[
self error:'invalid argument(s)'.
] ifFalse:[
(OperatingSystem errorHolderForNumber:errorNumber) reportError
].
! !
!Win32OperatingSystem::Win32SerialPortHandle methodsFor:'release'!
closeFile
"close the handle"
%{
HANDLE port = (HANDLE)(__externalAddressVal(self));
if (port) {
__externalAddressVal(self) = (HANDLE)0;
PurgeComm( port, PURGE_TXABORT | PURGE_RXABORT | PURGE_TXCLEAR | PURGE_RXCLEAR );
CloseHandle(port);
}
%}.
! !
!Win32OperatingSystem::Win32SerialPortHandle methodsFor:'setup'!
baudRate:newRate
%{
HANDLE port = (HANDLE)(__externalAddressVal(self));
if (port
&& __isSmallInteger(newRate)) {
DCB dcb;
ZeroMemory(&dcb, sizeof(dcb));
dcb.DCBlength = sizeof(dcb);
GetCommState(port, &dcb);
dcb.BaudRate = __intVal(newRate);
if (! SetCommState(port, &dcb)) {
RETURN(false);
}
RETURN(true);
}
%}.
self primitiveFailed.
!
dataBits:newNumberOfBits
%{
HANDLE port = (HANDLE)(__externalAddressVal(self));
if (port
&& __isSmallInteger(newNumberOfBits)) {
DCB dcb;
ZeroMemory(&dcb, sizeof(dcb));
dcb.DCBlength = sizeof(dcb);
GetCommState(port, &dcb);
dcb.ByteSize = __intVal(newNumberOfBits);
if (! SetCommState(port, &dcb)) {
RETURN(false);
}
RETURN(true);
}
%}.
self primitiveFailed.
!
parityType:newParityTypeSymbol
"newParityTypeSymbol must be one of #odd, #even or #none (or nil)"
%{
HANDLE port = (HANDLE)(__externalAddressVal(self));
if (port) {
DCB dcb;
ZeroMemory(&dcb, sizeof(dcb));
dcb.DCBlength = sizeof(dcb);
GetCommState(port, &dcb);
if ((newParityTypeSymbol == nil) || (newParityTypeSymbol == @symbol(none))) {
dcb.Parity = NOPARITY;
} else if (newParityTypeSymbol == @symbol(odd)) {
dcb.Parity = ODDPARITY;
} else if (newParityTypeSymbol == @symbol(even)) {
dcb.Parity = EVENPARITY;
} else {
goto failure;
}
if (! SetCommState(port, &dcb)) {
RETURN(false);
}
RETURN(true);
}
failure: ;
%}.
self primitiveFailed.
!
stopBitsType:newStopBitsSymbol
"newParityTypeSymbol must be one of #stop1, #stop2 or #stop1_5"
%{
HANDLE port = (HANDLE)(__externalAddressVal(self));
if (port) {
DCB dcb;
ZeroMemory(&dcb, sizeof(dcb));
dcb.DCBlength = sizeof(dcb);
GetCommState(port, &dcb);
if (newStopBitsSymbol == @symbol(stop1)) {
dcb.Parity = 0 /* STOP1 */;
} else if (newStopBitsSymbol == @symbol(stop2)) {
dcb.Parity = 2 /* STOP2 */;
} else if (newStopBitsSymbol == @symbol(stop1_5)) {
dcb.Parity = 1 /* STOP1_5 */;
} else {
goto failure;
}
if (! SetCommState(port, &dcb)) {
RETURN(false);
}
RETURN(true);
}
failure: ;
%}.
self primitiveFailed.
! !
!Win32OperatingSystem::Win32SocketHandle class methodsFor:'constants'!
protocolCodeOf:aNameOrNumber
"q&d hack for unix-compatibility"
aNameOrNumber isNumber ifTrue:[^ aNameOrNumber].
aNameOrNumber isNil ifTrue:[^ aNameOrNumber].
aNameOrNumber = 'tcp' ifTrue:[^ 6].
aNameOrNumber = 'udp' ifTrue:[^ 17].
aNameOrNumber = 'raw' ifTrue:[^ 255].
self error:'unsupported protocol' mayProceed:true.
^ nil.
"
self protocolCodeOf:#tcp
"
!
protocolSymbolOf:anInteger
"q&d hack for unix-compatibility"
anInteger isNil ifTrue:[^ nil].
anInteger isSymbol ifTrue:[^ anInteger].
anInteger == 6 ifTrue:[ ^ #tcp ].
anInteger == 17 ifTrue:[ ^ #udp ].
anInteger == 255 ifTrue:[ ^ #raw ].
self error:'unsupported protocol' mayProceed:true.
^ nil.
"
self protocolSymbolOf:6
"
! !
!Win32OperatingSystem::Win32SocketHandle class methodsFor:'queries'!
getAddressInfo:hostName serviceName:serviceNameArg domain:domainArg type:typeArg protocol:protoArg flags:flags
"answer an Array of socket addresses for serviceName on hostName
Domain, type, protocol may be nil or specify a hint for the socket
addresses to be returned."
|error errorString result domain type proto serviceName port|
domain := OperatingSystem domainCodeOf:domainArg.
type := OperatingSystem socketTypeCodeOf:typeArg.
proto := self protocolCodeOf:protoArg.
serviceNameArg notNil ifTrue:[
serviceName := serviceNameArg printString. "convert integer port numbers"
serviceNameArg isInteger ifTrue:[
port := serviceNameArg.
].
]. "ifFalse:[serviceName := nil]"
%{ /* STACK:32000 */
#if !defined(NO_SOCKET)
char *__hostName, *__serviceName;
int ret, cnt = 0;
if (hostName == nil) {
__hostName = 0;
} else if (__isStringLike(hostName)) {
__hostName = __stringVal(hostName);
} else {
error = @symbol(badArgument1);
goto exitPrim;
}
if (serviceName == nil) {
__serviceName = 0;
} else if (__isStringLike(serviceName)) {
__serviceName = __stringVal(serviceName);
} else {
error = @symbol(badArgument2);
goto exitPrim;
}
if (__hostName == 0 && __serviceName == 0) {
error = @symbol(badArgument);
goto exitPrim;
}
{
# if defined(AI_NUMERICHOST)
/*
* Use getaddrinfo()
*/
struct addrinfo hints;
struct addrinfo *info = NULL, *infop;
memset(&hints, 0, sizeof(hints));
if (__isSmallInteger(domain))
hints.ai_family = __intVal(domain);
if (__isSmallInteger(type))
hints.ai_socktype = __intVal(type);
if (__isSmallInteger(proto))
hints.ai_protocol = __intVal(proto);
do {
/* must refetch in loop */
if (hostName == nil) {
__hostName = 0;
} else if (__isStringLike(hostName)) {
__hostName = __stringVal(hostName);
}
if (serviceName == nil) {
__serviceName = 0;
} else if (__isStringLike(serviceName)) {
__serviceName = __stringVal(serviceName);
}
# ifdef DO_WRAP_CALLS
do {
__threadErrno = 0;
res = STX_WSA_NOINT_CALL4( "getaddrinfo", getaddrinfo, __hostName, __serviceName, &hints, &info);
} while ((res < 0) && (__threadErrno == EINTR));
# else
__BEGIN_INTERRUPTABLE__
ret = getaddrinfo(__hostName, __serviceName, &hints, &info);
__END_INTERRUPTABLE__
# endif
} while (ret == EAI_SYSTEM && errno == EINTR);
if (ret != 0) {
switch (ret) {
case EAI_FAMILY:
error = @symbol(badProtocol);
break;
case EAI_SOCKTYPE:
error = @symbol(badSocketType);
break;
case EAI_BADFLAGS:
error = @symbol(badFlags);
break;
case EAI_NONAME:
error = @symbol(unknownHost);
break;
case EAI_SERVICE:
error = @symbol(unknownService);
break;
case EAI_ADDRFAMILY :
error = @symbol(unknownHostForProtocol);
break;
case EAI_NODATA:
error = @symbol(noAddress);
break;
case EAI_MEMORY:
error = @symbol(allocationFailure);
break;
case EAI_FAIL:
error = @symbol(permanentFailure);
break;
case EAI_AGAIN:
error = @symbol(tryAgain);
break;
case EAI_SYSTEM:
error = @symbol(systemError);
break;
default:
error = @symbol(unknownError);
}
errorString = __MKSTRING(gai_strerror(ret));
goto err;
}
for (cnt=0, infop=info; infop; infop=infop->ai_next)
cnt++;
result = __ARRAY_NEW_INT(cnt);
if (result == nil) {
error = @symbol(allocationFailure);
goto err;
}
for (infop=info, cnt=0; infop; infop=infop->ai_next, cnt++) {
OBJ o, resp;
resp = __ARRAY_NEW_INT(6);
if (resp == nil) {
error = @symbol(allocationFailure);
goto err;
}
__ArrayInstPtr(result)->a_element[cnt] = resp; __STORE(result, resp);
__ArrayInstPtr(resp)->a_element[0] = __mkSmallInteger(infop->ai_flags);
__ArrayInstPtr(resp)->a_element[1] = __mkSmallInteger(infop->ai_family);
__ArrayInstPtr(resp)->a_element[2] = __mkSmallInteger(infop->ai_socktype);
__ArrayInstPtr(resp)->a_element[3] = __mkSmallInteger(infop->ai_protocol);
__PROTECT__(resp);
o = __BYTEARRAY_NEW_INT(infop->ai_addrlen);
__UNPROTECT__(resp);
if (o == nil) {
error = @symbol(allocationFailure);
goto err;
}
memcpy(__byteArrayVal(o), infop->ai_addr, infop->ai_addrlen);
__ArrayInstPtr(resp)->a_element[4] = o; __STORE(resp, o);
if (infop->ai_canonname) {
__PROTECT__(resp);
o = __MKSTRING(infop->ai_canonname);
__UNPROTECT__(resp);
if (o == nil) {
error = @symbol(allocationFailure);
goto err;
}
__ArrayInstPtr(resp)->a_element[5] = o; __STORE(resp, o);
}
}
err:
if (info) freeaddrinfo(info);
# else /* ! AI_NUMERICHOST =============================================================*/
/*
* Use getservbyname() / gethostByName()
*/
struct hostent *hp;
char **addrpp;
int __port = 0;
int i;
if (__isSmallInteger(port)) {
__port = htons(__smallIntegerVal(port));
} else if (__serviceName) {
struct servent *sp;
char *__proto = 0;
if (__isStringLike(protoArg))
__proto = __stringVal(protoArg);
sp = getservbyname(__serviceName, __proto);
if (sp == NULL) {
__port = atoi(__serviceName);
if (__port <= 0) {
errorString = @symbol(unknownService);
error = __mkSmallInteger(-3);
goto err;
}
__port = htons(__port);
} else
__port = sp->s_port;
}
if (__hostName) {
# ifdef USE_H_ERRNO
do {
/* must refetch in loop */
if (hostName == nil) {
__hostName = 0;
} else if (__isStringLike(hostName)) {
__hostName = __stringVal(hostName);
}
# ifdef DO_WRAP_CALLS
hp = STX_WSA_NOINT_CALL1("gethostbyname", gethostbyname, __hostName);
if ((INT)hp < 0) hp = NULL;
# else
/* __BEGIN_INTERRUPTABLE__ is dangerous, because gethostbyname
* uses a static data area
*/
__BEGIN_INTERRUPTABLE__
hp = gethostbyname(__hostName);
__END_INTERRUPTABLE__
#endif
} while ((hp == NULL)
&& (
(h_errno == TRY_AGAIN)
|| errno == EINTR
# ifdef IRIX5_3
|| (errno == ECONNREFUSED)
# endif
)
);
if (hp == 0) {
switch (h_errno) {
case HOST_NOT_FOUND:
errorString = @symbol(unknownHost);
break;
case NO_ADDRESS:
errorString = @symbol(noAddress);
break;
case NO_RECOVERY:
errorString = @symbol(permanentFailure);
break;
case TRY_AGAIN:
errorString = @symbol(tryAgain);
break;
default:
errorString = @symbol(unknownError);
break;
}
error = __mkSmallInteger(h_errno);
goto err;
}
# else /* !USE_H_ERRNO */
hp = gethostbyname(__hostName);
if (hp == 0) {
errorString = @symbol(unknownHost);
error = __mkSmallInteger(-1);
goto err;
}
# endif /* !USE_H_ERRNO*/
if (__isSmallInteger(domain) && hp->h_addrtype != __smallIntegerVal(domain)) {
errorString = @symbol(unknownHost);
error = __mkSmallInteger(-2);
goto err;
}
for (cnt = 0, addrpp = hp->h_addr_list; *addrpp; addrpp++)
cnt++;
addrpp = hp->h_addr_list;
} else {
cnt = 1;
}
result = __ARRAY_NEW_INT(cnt);
if (result == nil) {
error = @symbol(allocationFailure);
goto err;
}
for (i = 0; i < cnt; i++) {
OBJ o, resp;
struct sockaddr_in *sa;
resp = __ARRAY_NEW_INT(6);
if (resp == nil) {
error = @symbol(allocationFailure);
goto err;
}
__ArrayInstPtr(result)->a_element[i] = resp; __STORE(result, resp);
__ArrayInstPtr(resp)->a_element[0] = __mkSmallInteger(0);
__ArrayInstPtr(resp)->a_element[2] = type; __STORE(result, type);
__ArrayInstPtr(resp)->a_element[3] = proto; __STORE(result, proto);
__PROTECT__(resp);
o = __BYTEARRAY_NEW_INT(sizeof(*sa));
__UNPROTECT__(resp);
if (o == nil) {
error = @symbol(allocationFailure);
goto err;
}
__ArrayInstPtr(resp)->a_element[4] = o; __STORE(resp, o);
sa = (struct sockaddr_in *)__byteArrayVal(o);
sa->sin_port = __port;
if (__hostName) {
sa->sin_family = hp->h_addrtype;
memcpy(&sa->sin_addr, *addrpp, hp->h_length);
__ArrayInstPtr(resp)->a_element[1] = __mkSmallInteger(hp->h_addrtype);
if (hp->h_name) {
__PROTECT__(resp);
o = __MKSTRING(hp->h_name);
__UNPROTECT__(resp);
if (o == nil) {
error = @symbol(allocationFailure);
goto err;
}
__ArrayInstPtr(resp)->a_element[5] = o; __STORE(resp, o);
}
addrpp++;
} else{
__ArrayInstPtr(resp)->a_element[1] = domain; __STORE(resp, domain);
}
}
err:;
# endif /* ! AI_NUMERICHOST */
}
#else /* ! HAS_SOCKET */
error = @symbol(notImplemented);
#endif
exitPrim:;
%}.
error notNil ifTrue:[
|request|
request := SocketAddressInfo new
domain:domainArg;
type:typeArg;
protocol:protoArg;
canonicalName:hostName;
serviceName:serviceName.
^ (HostNameLookupError new
parameter:error;
messageText:' - ', (errorString ? error printString);
request:request) raiseRequest.
].
1 to:result size do:[:i |
|entry dom info|
info := SocketAddressInfo new.
entry := result at:i.
info flags:(entry at:1).
info domain:(dom := OperatingSystem domainSymbolOf:(entry at:2)).
info type:(OperatingSystem socketTypeSymbolOf:(entry at:3)).
info protocol:(self protocolSymbolOf:(entry at:4)).
info socketAddress:((SocketAddress newDomain:dom) fromBytes:(entry at:5)).
info canonicalName:(entry at:6).
result at:i put:info
].
^ result
"
self getAddressInfo:'localhost' serviceName:nil
domain:nil type:nil protocol:nil flags:nil
self getAddressInfo:'localhost' serviceName:nil
domain:#inet type:#stream protocol:nil flags:nil
self getAddressInfo:'localhost' serviceName:nil
domain:#inet type:#stream protocol:#tcp flags:nil
self getAddressInfo:'localhost' serviceName:10
domain:#inet type:#stream protocol:#tcp flags:nil
self getAddressInfo:'localhost' serviceName:'10'
domain:#inet type:#stream protocol:#tcp flags:nil
self getAddressInfo:'blurb.exept.de' serviceName:nil
domain:#inet type:nil protocol:nil flags:nil
self getAddressInfo:'1.2.3.4' serviceName:'bla'
domain:#inet type:nil protocol:nil flags:nil
self getAddressInfo:'localhost' serviceName:'echo'
domain:#inet type:nil protocol:nil flags:nil
self getAddressInfo:nil serviceName:'echo'
domain:#inet type:nil protocol:nil flags:nil
self getAddressInfo:nil serviceName:nil
domain:#inet type:nil protocol:nil flags:nil
self getAddressInfo:'www.google.de' serviceName:nil
domain:nil type:nil protocol:nil flags:nil
self getAddressInfo:'smc1' serviceName:nil
domain:nil type:nil protocol:nil flags:nil
"
!
getNameInfo:socketAddress wantHostName:wantHostName wantServiceName:wantServiceName datagram:useDatagram flags:flags
"answer an Array containing the hostName and serviceName
in socketAddress.
This is the generic version of getHostByAddr, however, if supported by the OS,
this returns multiple hostnames (if appropriate)"
|error errorString hostName serviceName|
%{ /* STACK:32000 */
#if !defined(NO_SOCKET)
# ifndef NI_MAXHOST
# define NI_MAXHOST 256
# define NI_MAXSERV 64
# endif
char host[NI_MAXHOST];
char service[NI_MAXSERV];
char *hp = 0, *sp = 0;
int hsz = 0, ssz = 0;
int ret, __flags;
char *bp;
int nInstBytes, sockAddrSize;
if (wantHostName == true) {
hp = host;
hsz = sizeof(host);
}
if (wantServiceName == true) {
sp = service;
ssz = sizeof(service);
}
if (hp == 0 && sp == 0) {
error = @symbol(badArgument);
goto err;
}
if (!__isBytes(socketAddress)) {
error = @symbol(badArgument1);
goto err;
}
nInstBytes = __OBJS2BYTES__(__intVal(__ClassInstPtr(__qClass(socketAddress))->c_ninstvars));
sockAddrSize = __byteArraySize(socketAddress);
sockAddrSize -= nInstBytes;
if (!__isSmallInteger(flags)) {
error = @symbol(badArgument5);
goto err;
}
__flags = __intVal(flags);
#if defined(NI_NUMERICHOST)
if (useDatagram == true) {
__flags |= NI_DGRAM;
}
{
bp = (char *)(__byteArrayVal(socketAddress));
bp += nInstBytes;
__BEGIN_INTERRUPTABLE__
ret = getnameinfo((struct sockaddr *)bp, sockAddrSize,
hp, hsz, sp, ssz, __flags);
__END_INTERRUPTABLE__
} while (ret == EAI_SYSTEM && errno == EINTR);
if (ret != 0) {
switch (ret) {
case EAI_FAMILY:
error = @symbol(badProtocol);
break;
case EAI_SOCKTYPE:
error = @symbol(badSocketType);
break;
case EAI_BADFLAGS:
error = @symbol(badFlags);
break;
case EAI_NONAME:
error = @symbol(unknownHost);
break;
case EAI_SERVICE:
error = @symbol(unknownService);
break;
case EAI_ADDRFAMILY :
error = @symbol(unknownHostForProtocol);
break;
case EAI_NODATA:
error = @symbol(noAddress);
break;
case EAI_MEMORY:
error = @symbol(allocationFailure);
break;
case EAI_FAIL:
error = @symbol(permanentFailure);
break;
case EAI_AGAIN:
error = @symbol(tryAgain);
break;
case EAI_SYSTEM:
error = @symbol(systemError);
break;
default:
error = @symbol(unknownError);
}
errorString = __MKSTRING(gai_strerror(ret));
goto err;
}
# else /* ! NI_NUMERICHOST */
{
/*
* Do it using gethostbyaddr()
*/
struct sockaddr_in *sa;
if (sockAddrSize < sizeof(*sa)) {
error = @symbol(badArgument1);
goto err;
}
bp = (char *)(__byteArrayVal(socketAddress));
bp += nInstBytes;
sa = (struct sockaddr_in *)bp;
if (sp) {
struct servent *servp;
char *__proto = 0;
__proto = (useDatagram == true ? "udp" : "tcp");
servp = getservbyport(sa->sin_port, __proto);
if (servp) {
sp = servp->s_name;
}
}
if (hp) {
struct hostent *hostp;
# ifdef USE_H_ERRNO
do {
/* must refetch in loop */
bp = (char *)(__byteArrayVal(socketAddress));
bp += nInstBytes;
sa = (struct sockaddr_in *)bp;
/* __BEGIN_INTERRUPTABLE__ is dangerous, because gethostbyname uses a static data area
*/
hostp = gethostbyaddr((char *)&sa->sin_addr, sockAddrSize, sa->sin_family);
/* __END_INTERRUPTABLE__ */
} while ((hostp == NULL)
&& ((h_errno == TRY_AGAIN)
|| errno == EINTR
# ifdef IRIX5_3
|| (errno == ECONNREFUSED)
# endif
)
);
if (hostp == 0) {
switch (h_errno) {
case HOST_NOT_FOUND:
errorString = @symbol(unknownHost);
break;
case NO_ADDRESS:
errorString = @symbol(noAddress);
break;
case NO_RECOVERY:
errorString = @symbol(permanentFailure);
break;
case TRY_AGAIN:
errorString = @symbol(tryAgain);
break;
default:
errorString = @symbol(unknownError);
break;
}
error = __mkSmallInteger(h_errno);
goto err;
}
# else /* !USE_H_ERRNO */
hostp = gethostbyaddr((char *)&sa->sin_addr, sockAddrSize, sa->sin_family);
if (hostp == 0) {
errorString = @symbol(unknownHost);
error = __mkSmallInteger(-1);
goto err;
}
# endif /* !USE_H_ERRNO*/
hp = hostp->h_name;
}
}
# endif /* ! NI_NUMERICHOST */
if (hp)
hostName = __MKSTRING(hp);
if (sp)
serviceName = __MKSTRING(sp);
err:;
#else
error = @symbol(notImplemented);
#endif
%}.
error notNil ifTrue:[
^ (HostAddressLookupError new
parameter:error;
messageText:' - ', errorString;
request:thisContext message) raiseRequest.
].
^ Array with:hostName with:serviceName
"
self getNameInfo:
(self getAddressInfo:'localhost' serviceName:'echo'
domain:#inet type:#stream protocol:nil flags:nil) first socketAddress
wantHostName:true wantServiceName:true datagram:false flags:0
self getNameInfo:
(self getAddressInfo:'exept.exept.de' serviceName:'echo'
domain:#inet type:#stream protocol:nil flags:nil) first socketAddress
wantHostName:true wantServiceName:true datagram:false flags:0
self getNameInfo:#[1 2 3 4]
wantHostName:true wantServiceName:true datagram:false flags:0
"
! !
!Win32OperatingSystem::WinPointStructure class methodsFor:'instance creation'!
new
^super new: self sizeInBytes
"Created: / 03-08-2006 / 10:37:59 / fm"
!
sizeInBytes
^8
"Created: / 03-08-2006 / 10:38:06 / fm"
! !
!Win32OperatingSystem::WinPointStructure methodsFor:'accessing'!
asPoint
"Private - Answer the receiver as a Point."
^self x @ self y
"Created: / 03-08-2006 / 10:45:55 / fm"
!
x
"Private - Answer the x coordinate of the point."
^self longAt: 0 + 1
"Created: / 03-08-2006 / 10:46:11 / fm"
!
x: anInteger
"Private - Set the x coordinate of the point."
self longAt: 0 + 1 put: anInteger
"Created: / 03-08-2006 / 10:46:41 / fm"
!
y
"Private - Answer the y coordinate of the point."
^self longAt: 4 + 1
"Created: / 03-08-2006 / 10:46:26 / fm"
!
y: anInteger
"Private - Set the y coordinate of the point."
self longAt: 4 + 1 put: anInteger
"Created: / 03-08-2006 / 10:46:56 / fm"
! !
!Win32OperatingSystem::WinPointStructure methodsFor:'printing'!
printOn: aStream
"Append a textual representation of the receiver to aStream."
aStream nextPutAll: self class name, ' { ', self asPoint printString, ' } '
"Created: / 03-08-2006 / 10:45:40 / fm"
! !
!Win32OperatingSystem class methodsFor:'documentation'!
version
^ '$Header: /cvs/stx/stx/libbasic/Win32OperatingSystem.st,v 1.405 2010-07-23 15:10:35 stefan Exp $'
!
version_CVS
^ '$Header: /cvs/stx/stx/libbasic/Win32OperatingSystem.st,v 1.405 2010-07-23 15:10:35 stefan Exp $'
! !
Win32OperatingSystem initialize!
Win32OperatingSystem::PerformanceData initialize!
Win32OperatingSystem::RegistryEntry initialize!