Tag Info

Hot answers tagged


Got it. The Windows file system is behaving differently depending on the architecture of your process. This article explains it all - in particular: But what about 32-bit applications that have the system path hard coded and is running in a 64-bit Windows? How can they find the new SysWOW64 folder without changes in the program code, you might think. The ...


If you are on a 64bit OS then you are 'silently' remote debugging. Devenv runs in WoW64 (meaning it's a 32bit process) ... when you hit F5 is launchs msvsmon.exe as a 64 bit process and sets up a communication channel between devenv and msvsmon "silent remote debugging" to allow debugging your 64 bit process. Check task manager when you are successfully ...


If you can change the target .Net version to v4, then you can use the new OpenBaseKey function e.g. RegistryKey registryKey; if (Environment.Is64BitOperatingSystem == true) { registryKey = RegistryKey.OpenBaseKey(Microsoft.Win32.RegistryHive.LocalMachine, RegistryView.Registry64); } else { registryKey = ...


2 GB by default. If the application is large address space aware (linked with /LARGEADDRESSAWARE), it gets 4 GB (not 3 GB, see http://msdn.microsoft.com/en-us/library/aa366778.aspx) They're still limited to 2 GB since many application depends on the top bit of pointers to be zero.


I discovered that I could solve my problem using the flag: KEY_WOW64_64KEY , as in: result = RegOpenKeyEx(key, s, 0, KEY_READ|KEY_WOW64_64KEY, &key); For a full explanation: 32-bit and 64-bit Application Data in the Registry


If you mark you C# program as x86 (and not Any CPU) then it will see HKEY_LOCAL_MACHINE\Software\Wow6432Node\App as HKEY_LOCAL_MACHINE\Software\App. A .NET program for Any CPU will run as a 64 bit process if 64 bit .NET is installed. The 32 bit registry is under the Wow6432Node for 64 bit programs.


This is redirection of system folders at work. When a 32-bit process is running on a 64-bit version of Windows and uses the path %WINDIR%\System32, Windows substitutes %WINDIR%\SysWow64. The function is returning false to tell you that C:\windows\syswow64\inetsrv\metaback does not exist, and it most likely is absolutely correct. Try instead: ...


On an x64 machine, here is an example of how to access the 32-bit view of the registry: var view32 = RegistryKey.OpenBaseKey(RegistryHive.CurrentUser, RegistryView.Registry32); using (var clsid32 = view32.OpenSubKey(@"Software\Classes\CLSID\", false)) { // actually accessing Wow6432Node } ... as compared to... ...


From the linked documentation: Returns (...) an integer (or long integer) In Python 2.x on amd64, a long integer is an integer larger than 64 bits. In any case, in Python, integers are unbounded. Therefore, id can return arbitrarily long values. If you must know a definite maximum value, you may assume that the available memory on your platform is an ...


Just FYI, .NET 4.0 supports this natively. Example: RegistryBase = RegistryKey.OpenBaseKey(RegistryHive.LocalMachine, RegistryView.Registry64); You can then use that RegistryBase variable to access anything in the 64-bit view of HKLM. Conversely, Registry32 will let a 64-bit application access the 32-bit view of the registry.


On a Windows 64-bit system the Registry is actually divided into two parts. One section is used by 64-bit processes, and one part by 32-bit processes. For example, if a 32-bit application programatically writes to what it believes is HKLM\SOFTWARE\Company\Application, it's actually redirected by the WoW64-layer to ...


The correct way would be to call the native registry api and passing the KEY_WOW64_32KEY flag to RegOpenKeyEx/RegCreateKeyEx


Without going into undocumented APIs, you can't do this. In general, reading a 64-bit process' memory from a 32-bit process won't work due to the address space differences. EnumProcessModulesEx, which has LIST_MODULES_32BIT and LIST_MODULES_64BIT filter flags, has this to say: This function is intended primarily for 64-bit applications. If the function ...


On 64-bit operating systems, the ProgramW6432 environment variable points to c:\program files. The full list for a 32-bit app on an English version of Windows: ProgramFiles => c:\program files (x86) ProgramFiles(x86) => c:\program files (x86) ProgramW6432 => c:\program files CommonProgramFiles => c:\program files (x86)\common files CommonProgramFiles(x86) ...


4 GB minus what is in use by the system if you link with /LARGEADDRESSAWARE. Of course, you should be even more careful with pointer arithmetic if you set that flag.


I am encountering a similar problem and I think that the only solution at the moment is to run something else (64bit) via CreateProcess. This doc appears to have a solution using DPInst (http://www.microsoft.com/whdc/driver/install/32-64bit_install.mspx) though I have not tried it myself yet. Will add anything else I find. Additional: Have now got it to ...


If you really only want to do this for EXEs and not DLLs, just use GetBinaryType. Determines whether a file is an executable (.exe) file, and if so, which subsystem runs the executable file.


In the case where you explicitly need to read a value written by a 32 bit program in a 64 bit program, it's OK to hard code it. Simply because there really is no other option. I would of course abstract it out to a helper function. For example public RegistryKey GetSoftwareRoot() { var path = 8 == IntPtr.Size ? @"Software\Wow6432Node" : ...


I just received an email from a Microsoft WOW64 developer who confirms: Handles are 32bit and can be safely truncated/zero extended. It is true for both kernel object handles and USER/GDI handles.


winsat.exe is redirected using Windows-on Windows 64-bit redirection. What's happening is that your launch request (from a 32-bit process) is being redirected to %windir%\SysWOW64\winsat.exe. Since there's no 32-bit version of this particular executable on 64-bit installs, the launch fails. To bypass this process and allow your 32-bit process to access the ...


You need to open the key using RegistryView.Registry64. You specify this in the OpenBaseKey method so you'll need to rejig your code a little.


As Daniel Rose points out above, the MSDN documentation now states: ... it is safe to truncate the handle (when passing it from 64-bit to 32-bit) or sign-extend the handle (when passing it from 32-bit to 64-bit). There still seems to be some confusion here, given that I was told zero extension is the correct way by a WOW64 dev. If you are writing a 64 ...


Nobody seems to touch upon the fact that if you have many different 32-bit applications, the wow64 subsystem can map them anywhere in memory above 4G, so on a 64-bit windows with sufficient memory, you can run many more 32-bit applications than on a native 32-bit system.


They're actually 8- or 16-bit programs. Windows x64 runs in Long Mode, which does not support Virtual 8086 Mode, required for such programs. There is no way to make them work short of recompiling them from source or running them in a virtual machine.


The main advantage of a 64-bit system is that it allows applications in 64-bit mode, which, in turn, is primarily useful if you need to access more than 4GB memory. If you have that requirement, using a 64-bit system is your only choice. Your application would be using 64-bit code, so WOW64 would not be used, and thus not cause problems. If you don't really ...


This post will surely help you. Is C# related but it will give you the idea.




A 32-bit process is still limited to the same constraints in a 64-bit OS. The issue is that memory pointers are only 32-bits wide, so the program can't assign/resolve any memory address larger than 32 bits.


Each of the two processes has an own address space, so that the pointer from process 32.exe is not valid in 64.exe. However, this has nothing to do with 32bit vs 64bit at all. You just have to use an interprocess communication technique of your choice to transfer the data between the two processes. For example, you could use CreateFileMapping to create a ...


Extending Anders's answer, there's a good example of wrapping the resulting handle in a .NET RegistryKey object on Shahar Prish's blog - be sure to read the comments too though. Note that unvarnished use of the pinvoke.net wrapper of RegOpenKeyEx is fraught with issues.

Only top voted, non community-wiki answers of a minimum length are eligible