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Category : Windows DLL

For the Microsoft Windows operating systems that are listed in the “Applies to” section, much of the functionality of the operating system is provided by dynamic link libraries (DLL). Additionally, when you run a program on one of these Windows operating systems, much of the functionality of the program may be provided by DLLs. For example, some programs may contain many different modules, and each module of the program is contained and distributed in DLLs.

The use of DLLs helps promote modularization of code, code reuse, efficient memory usage, and reduced disk space. Therefore, the operating system and the programs load faster, run faster, and take less disk space on the computer.

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When a program uses a DLL, an issue that is called dependency may cause the program not to run. When a program uses a DLL, a dependency is created. If another program overwrites and breaks this dependency, the original program may not successfully run.

With the introduction of the Microsoft .NET Framework, most dependency problems have been eliminated by using assemblies.
What is a DLL?

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A DLL is a library that contains code and data that can be used by more than one program at the same time. For example, in Windows operating systems, the Comdlg32 DLL performs common dialog box related functions. Therefore, each program can use the functionality that is contained in this DLL to implement an Open dialog box. This helps promote code reuse and efficient memory usage.

By using a DLL, a program can be modularized into separate components. For example, an accounting program may be sold by module. Each module can be loaded into the main program at run time if that module is installed. Because the modules are separate, the load time of the program is faster, and a module is only loaded when that functionality is requested.

Additionally, updates are easier to apply to each module without affecting other parts of the program. For example, you may have a payroll program, and the tax rates change each year. When these changes are isolated to a DLL, you can apply an update without needing to build or install the whole program again.

The following list describes some of the files that are implemented as DLLs in Windows operating systems:
ActiveX Controls (.ocx) files
An example of an ActiveX control is a calendar control that lets you select a date from a calendar.
Control Panel (.cpl) files
An example of a .cpl file is an item that is located in Control Panel. Each item is a specialized DLL.
Device driver (.drv) files
An example of a device driver is a printer driver that controls the printing to a printer.
DLL advantages

The following list describes some of the advantages that are provided when a program uses a DLL:
Uses fewer resources
When multiple programs use the same library of functions, a DLL can reduce the duplication of code that is loaded on the disk and in physical memory. This can greatly influence the performance of not just the program that is running in the foreground, but also other programs that are running on the Windows operating system.
Promotes modular architecture
A DLL helps promote developing modular programs. This helps you develop large programs that require multiple language versions or a program that requires modular architecture. An example of a modular program is an accounting program that has many modules that can be dynamically loaded at run time.
Eases deployment and installation
When a function within a DLL needs an update or a fix, the deployment and installation of the DLL does not require the program to be relinked with the DLL. Additionally, if multiple programs use the same DLL, the multiple programs will all benefit from the update or the fix. This issue may more frequently occur when you use a third-party DLL that is regularly updated or fixed.
DLL dependencies

When a program or a DLL uses a DLL function in another DLL, a dependency is created. Therefore, the program is no longer self-contained, and the program may experience problems if the dependency is broken. For example, the program may not run if one of the following actions occurs:
A dependent DLL is upgraded to a new version.
A dependent DLL is fixed.
A dependent DLL is overwritten with an earlier version.
A dependent DLL is removed from the computer.
These actions are generally known as DLL conflicts. If backward compatibility is not enforced, the program may not successfully run.

The following list describes the changes that have been introduced in Microsoft Windows 2000 and in later Windows operating systems to help minimize dependency issues:
Windows File Protection
In Windows File Protection, the operating system prevents system DLLs from being updated or deleted by an unauthorized agent. Therefore, when a program installation tries to remove or update a DLL that is defined as a system DLL, Windows File Protection will look for a valid digital signature.
Private DLLs
Private DLLs let you isolate a program from changes that are made to shared DLLs. Private DLLs use version-specific information or an empty .local file to enforce the version of the DLL that is used by the program. To use private DLLs, locate your DLLs in the program root folder. Then, for new programs, add version-specific information to the DLL. For old programs, use an empty .local file. Each method tells the operating system to use the private DLLs that are located in the program root folder.

DLL dependencies

When a program or a DLL uses a DLL function in another DLL, a dependency is created. Therefore, the program is no longer self-contained, and the program may experience problems if the dependency is broken. For example, the program may not run if one of the following actions occurs:
A dependent DLL is upgraded to a new version.
A dependent DLL is fixed.
A dependent DLL is overwritten with an earlier version.
A dependent DLL is removed from the computer.
These actions are generally known as DLL conflicts. If backward compatibility is not enforced, the program may not successfully run.

The following list describes the changes that have been introduced in Microsoft Windows 2000 and in later Windows operating systems to help minimize dependency issues:
Windows File Protection
In Windows File Protection, the operating system prevents system DLLs from being updated or deleted by an unauthorized agent. Therefore, when a program installation tries to remove or update a DLL that is defined as a system DLL, Windows File Protection will look for a valid digital signature.
Private DLLs
Private DLLs let you isolate a program from changes that are made to shared DLLs. Private DLLs use version-specific information or an empty .local file to enforce the version of the DLL that is used by the program. To use private DLLs, locate your DLLs in the program root folder. Then, for new programs, add version-specific information to the DLL. For old programs, use an empty .local file. Each method tells the operating system to use the private DLLs that are located in the program root folder.

DLL development

This section describes the issues and the requirements that you should consider when you develop your own DLLs.
Types of DLLs

When you load a DLL in an application, two methods of linking let you call the exported DLL functions. The two methods of linking are load-time dynamic linking and run-time dynamic linking.
Load-time dynamic linking
In load-time dynamic linking, an application makes explicit calls to exported DLL functions like local functions. To use load-time dynamic linking, provide a header (.h) file and an import library (.lib) file when you compile and link the application. When you do this, the linker will provide the system with the information that is required to load the DLL and resolve the exported DLL function locations at load time.
Run-time dynamic linking
In run-time dynamic linking, an application calls either the LoadLibrary function or the LoadLibraryEx function to load the DLL at run time. After the DLL is successfully loaded, you use the GetProcAddress function to obtain the address of the exported DLL function that you want to call. When you use run-time dynamic linking, you do not need an import library file.

The following list describes the application criteria for when to use load-time dynamic linking and when to use run-time dynamic linking:
Startup performance
If the initial startup performance of the application is important, you should use run-time dynamic linking.
Ease of use
In load-time dynamic linking, the exported DLL functions are like local functions. This makes it easy for you to call these functions.
Application logic
In run-time dynamic linking, an application can branch to load different modules as required. This is important when you develop multiple-language versions.
The DLL entry point

When you create a DLL, you can optionally specify an entry point function. The entry point function is called when processes or threads attach themselves to the DLL or detached themselves from the DLL. You can use the entry point function to initialize data structures or to destroy data structures as required by the DLL. Additionally, if the application is multithreaded, you can use thread local storage (TLS) to allocate memory that is private to each thread in the entry point function. The following code is an example of the DLL entry point function.
BOOL APIENTRY DllMain(
HANDLE hModule, // Handle to DLL module
DWORD ul_reason_for_call, // Reason for calling function
LPVOID lpReserved ) // Reserved

switch ( ul_reason_for_call )

case DLL_PROCESS_ATTACHED:
// A process is loading the DLL.
break;
case DLL_THREAD_ATTACHED:
// A process is creating a new thread.
break;
case DLL_THREAD_DETACH:
// A thread exits normally.
break;
case DLL_PROCESS_DETACH:
// A process unloads the DLL.
break;

return TRUE;

When the entry point function returns a FALSE value, the application will not start if you are using load-time dynamic linking. If you are using run-time dynamic linking, only the individual DLL will not load.

The entry point function should only perform simple initialization tasks and should not call any other DLL loading or termination functions. For example, in the entry point function, you should not directly or indirectly call the LoadLibrary function or the LoadLibraryEx function. Additionally, you should not call the FreeLibrary function when the process is terminating.

Note In multithreaded applications, make sure that access to the DLL global data is synchronized (thread safe) to avoid possible data corruption. To do this, use TLS to provide unique data for each thread.
Exporting DLL functions

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To export DLL functions, you can either add a function keyword to the exported DLL functions or create a module definition (.def) file that lists the exported DLL functions.

To use a function keyword, you must declare each function that you want to export with the following keyword:
__declspec(dllexport)
To use exported DLL functions in the application, you must declare each function that you want to import with the following keyword:
__declspec(dllimport)
Typically, you would use one header file that has a define statement and an ifdef statement to separate the export statement and the import statement.

You can also use a module definition file to declare exported DLL functions. When you use a module definition file, you do not have to add the function keyword to the exported DLL functions. In the module definition file, you declare the LIBRARY statement and the EXPORTS statement for the DLL. The following code is an example of a definition file.
// SampleDLL.def
//
LIBRARY “sampleDLL”

EXPORTS
HelloWorld
Sample DLL and application

In Microsoft Visual C++ 6.0, you can create a DLL by selecting either the Win32 Dynamic-Link Library project type or the MFC AppWizard (dll) project type.

The following code is an example of a DLL that was created in Visual C++ by using the Win32 Dynamic-Link Library project type.
// SampleDLL.cpp
//

#include “stdafx.h”
#define EXPORTING_DLL
#include “sampleDLL.h”

BOOL APIENTRY DllMain( HANDLE hModule,
DWORD ul_reason_for_call,
LPVOID lpReserved
)

return TRUE;

void HelloWorld()

MessageBox( NULL, TEXT(“Hello World”), TEXT(“In a DLL”), MB_OK);

// File: SampleDLL.h
//
#ifndef INDLL_H
#define INDLL_H

#ifdef EXPORTING_DLL
extern __declspec(dllexport) void HelloWorld() ;
#else
extern __declspec(dllimport) void HelloWorld() ;
#endif

#endif
The following code is an example of a Win32 Application project that calls the exported DLL function in the SampleDLL DLL.
// SampleApp.cpp
//

#include “stdafx.h”
#include “sampleDLL.h”

int APIENTRY WinMain(HINSTANCE hInstance,
HINSTANCE hPrevInstance,
LPSTR lpCmdLine,
int nCmdShow)

HelloWorld();
return 0;

Note In load-time dynamic linking, you must link the SampleDLL.lib import library that is created when you build the SampleDLL project.

In run-time dynamic linking, you use code that is similar to the following code to call the SampleDLL.dll exported DLL function.

typedef VOID (*DLLPROC) (LPTSTR);

HINSTANCE hinstDLL;
DLLPROC HelloWorld;
BOOL fFreeDLL;

hinstDLL = LoadLibrary(“sampleDLL.dll”);
if (hinstDLL != NULL)

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HelloWorld = (DLLPROC) GetProcAddress(hinstDLL, “HelloWorld”);
if (HelloWorld != NULL)
(HelloWorld);

fFreeDLL = FreeLibrary(hinstDLL);

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When you compile and link the SampleDLL application, the Windows operating system searches for the SampleDLL DLL in the following locations in this order:
The application folder
The current folder
The Windows system folder

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Note The Get System Directory function returns the path of the Windows system folder.
The Windows folder

Note The Get Windows Directory function returns the path of the Windows folder.
The .NET Framework assembly

With the introduction of Microsoft .NET and the .NET Framework, most of the problems that are associated with DLLs have been eliminated by using assemblies. An assembly is a logical unit of functionality that runs under the control of the .NET common language runtime (CLR). An assembly physically exists as a .dll file or as an .exe file. However, internally an assembly is very different from a Microsoft Win32 DLL.

An assembly file contains an assembly manifest, type metadata, Microsoft intermediate language (MSIL) code, and other resources.

Therefore, the CLR can maintain a consistent set of assemblies that are used in the application.

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NET 2002 Professional Edition
Microsoft Visual Studio .

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I bought the game off of Steam when I was still in Berlin. After my download I started her up only to get the german version. So...after getting internet here in Montreal I nuked the local content and redownloaded it thinking I'd download the english version (I also set the language for the game to english as the download started).
Nope. I only have the 'german' folder in my Program FilesValveSteamSteamAppscommoncall of duty 4zone folder. To 'reset' the download/installer I then switched the language to the german language (just to switch it back to english). Steam started downloading a ton of data and my 'german' folder has a lot more data in it. Then I switched the language back to english and Steam started downloading another ton of data...but no 'english' folder in the Program FilesValveSteamSteamAppscommoncall of duty 4zone folder. The 'german' folder just got alot bigger (the 'german' folder was only 585 MB before I switched the language and now that folder is 2 GB)
If anyone has the PC version installed (english version) could you please let me know which files should be in the Program FilesValveSteamSteamAppscommoncall of duty 4zoneenglish folder? Perhaps Steam fucked up in the installation of these files? Or...better yet, could someone make available their english language folder for me to grab from an FTP or some shit?
I've paid for the game. I have no DVD to grab the english language pack from. I've followed all the instructions from the Steam and Infinity Ward forums to get the english version working but no joy. The forums don't really offer any other fix for this and it seems like actually talking to someone at Steam/Valve or Infinity Ward is akin to publishing a picture of the prophet Mohammad. This is not a request for warez or anything like that, I'm simply asking for some files for a broken game that Steam can't fix.