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http://www.codeguru.com/Cpp/W-P/dll/article.php/c99
As many of you already know, and as the Visual C++ documentation illustrates,
the operating system will use the following algorithm for locating a DLL.
(Load Visual C++ help on LoadLibrary()).
The directory where the executable module for the current process is located.
The current directory.
The Windows system directory. The GetSystemDirectory function retrieves the path of this directory.
The Windows directory. The GetWindowsDirectory function retrieves the path of this directory.
The directories listed in the PATH environment variable.
Now, imagine the following situation in which two applications (ONE.EXE and TWO.EXE)
need to share a common DLL (COMMON.DLL). The applications install the files into the
following directories:
Application 1 Application 2
C:\Program Files\ONE\ONE.exe C:\Program Files\TWO\TWO.exe
C:\Program Files\Common\COMMON.DLL C:\Program Files\Common\COMMON.DLL
There are several ways to configure the machine using the above search algorithm.
1) Put all applications into a single directory
Hmm, one big directory. Sounds great until you need to remove one application,
and can't figure out which files to delete. While your at it, why not just make
one big .EXE file?
2) Modify the current directory
Faced with the above problems, many programs were configured to be started with
the current directory pointing to the DLL. This is easily set in the short-cut
which starts the application. While this gives each program control of the DLLs
that it loads, it also has several side effects:
Any documents written will be written to the DLL location.
File Open dialogs start out in the DLL location.
Programmatically changing the current directory may cause future DLL loads to fail.
It's difficult to control current directory if one program invokes another.
3) Put common files into the Windows or System directory
Many applications store DLLs in the Windows or System directory. This creates
a maintenance problem, particularly if the system files need to be replaced.
Many organizations have begun locking down the Windows and System directories,
in an effort to reduce maintenance costs.
4) Modify the PATH environment variable
Certainly the most straight forward approach is to have C:\Program Files\Common
added to the path. This was how things were done in the Win 3.1 days. There are
several problems:
If the workstation includes several applications, the PATH becomes incredibly long.
The order in which directories appear on the path becomes important.
The system spends a great deal of time searching directories that are never used by the application.
The program cannot determine which location is used to load a DLL.
Installation programs require re-boots for the path changes to take effect.
Finally, Application Specific Paths!
Microsoft has offered a solution to all these problems. Each application can now
store it own path the registry under the following key:
HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows\CurrentVersion\App Paths
The use the application path, set a key for your application, using ONE.EXE from
the example above:
HKEY_LOCAL_MACHINE\...\CurrentVersion\App Paths\ONE.exe
Set the (Default) value to the full path of your executable, for example:
C:\Program Files\ONE\ONE.exe
Add a sub-key named Path, set it's value to the full path of the DLL, for example:
C:\Program Files\Common
With an App Path registry entry, the system will load DLLs in the following order.
The directories listed in the App Path registry key
The directory where the executable module for the current process is located.
The current directory.
The Windows system directory. The GetSystemDirectory function retrieves the path of this directory.
The Windows directory. The GetWindowsDirectory function retrieves the path of this directory.
The directories listed in the PATH environment variable.
Run REGEDIT to see examples of other applications, and how they setup their App Path keys.
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