The Steamworks API allows your game to take full advantage of Steam by accessing all of the underlying systems provided through the API. This includes things such as pausing your game when the user opens the Steam Overlay
, inviting friends to play, allowing players to unlock Steam Achievements
, letting players compete on the Steam Leaderboards
and much more.
The Referência da API do Steamworks
catalogs and documents every interface, function, callback, and type supported in the API.
Integration with the Steamworks API is never required to ship your product on Steam, but it is highly recommended as it allows you to accomplish many interactions that Steam users expect.
The Steamworks API officially supports C++, using Microsoft Visual Studio 2008+ on Microsoft Windows, GCC 4.6+ and Clang 3.0+ on macOS and SteamOS / Linux. If you're using a third party engine or a programming language other than C++ then you should first look at Commercial engine and non-C++ language support
to see if there are more specific instructions to get started with your engine or language of choice. In some cases you may be able to skip many of these steps.
- If you haven't already, download the Steamworks SDK and unzip it.
- Copy the Steamworks API headers folder
public/steam into an appropriate place in your applications source tree.
- Include one of the following header files in your C++ project.
steam_api.h - This includes all other Steamworks headers and provides the entry point to initialize the Steamworks API.
steam_gameserver.h - This should only be included if you are using the Steam GameServer API. This includes
steam_api.h internally so there is no need to include both.
- Copy the relevant redistributable files from
redistributable_bin into an appropriate place in your project folder.
You must have
steam_api.lib linking in your visual studio project. This can be linked to either the primary executable or a module that uses Steam. This allows you to access the functionality contained in
steam_api.dll which is exposed via the Steamworks API headers. Additional Reading: Linking an Executable to a DLL (MSDN)
You must also ship the
steam_api.dll in your run-time directory (next to your programs executable, or in your dll search path).
libsteam_api.dylib provides both the x86 and x64 version of the Steam API. You must link to this in your XCode project and you must ship this along side your executable.
Additional Reading: Using Dynamic Libraries
libsteam_api.so You must both link to and ship this along side your executable.
Initialization and Shutdown
After you have the Steamworks API set up within your project you can start using it by calling SteamAPI_Init
function to initialize the API. This will set up the global state and populate the interface pointers which are accessible via the global functions which match the name of the interface. This MUST
be called and return successfully prior to accessing any of the Steamworks Interfaces
The Steamworks API will not initialize if it does not know the App ID of your game. When you launch your app from Steam itself then it will automatically have the App ID available. While developing you will need to hint this to Steam with a text file. Create the a text file called
next to your executable containing just the App ID and nothing else. This overrides the value that Steam provides. You should not ship this with your builds. Example:
A return of false
indicates one of the following conditions:
- The Steam client isn't running. A running Steam client is required to provide implementations of the various Steamworks interfaces.
- The Steam client couldn't determine the App ID of game. If you're running your application from the executable or debugger directly then you must have a
steam_appid.txt in your game directory next to the executable, with your app ID in it and nothing else. Steam will look for this file in the current working directory. If you are running your executable from a different directory you may need to relocate the
- Your application is not running under the same OS user context as the Steam client, such as a different user or administration access level.
- Ensure that you own a license for the App ID on the currently active Steam account. Your game must show up in your Steam library.
- Your App ID is not completely set up, i.e. in
Release State: Unavailable, or it's missing default packages.
If you're running into initialization issues then see the Debugging the Steamworks API
documentation to learn about the various methods of .
checks if your executable was launched through Steam and relaunches it through Steam if it wasn't.
This is optional but highly recommended as the Steam context associated with your application (including your App ID) will not be set up if the user launches the executable directly. If this occurs then
will fail and you will be unable to use the Steamworks API.
If you choose to use this then it should be the first Steamworks function call you make, right before SteamAPI_Init
If this returns true
then it starts the Steam client if required and launches your game again through it, and you should quit your process as soon as possible. This effectively runs
so it may not relaunch the exact executable that called this function (for example, if you were running from your debugger). It will always relaunch from the version installed in your Steam library folder.
Otherwise, if it returns false
, then your game was launched by the Steam client and no action needs to be taken. One exception is if a
file is present then this will return false
regardless. This allows you to develop and test without launching your game through the Steam client. Make sure to remove the
file when uploading the game to your Steam depot!NOTE:
If you use the Steam DRM wrapper on your primary executable file, this check is unnecessary as the DRM wrapper will perform this internally.
When you are done using the Steamworks API you should call SteamAPI_Shutdown
to release the resources used by your application internally within Steam. You should call this during process shutdown if possible.
This will not unhook the Steam Overlay
from your game as there's no guarantee that your rendering API is done using it.
The Steamworks API is composed of multiple interfaces which all expose a limited, specific amount of functionality.
After Steamworks has successfully initialized you can then access the interfaces via their global functions. The functions always match the name of their interface. As such you can access ISteamApps
accessor and ISteamFriends
You can use these interfaces to make calls like so:
// Get the current users Steam name.
const char *name = SteamFriends()->GetPersonaName();
You can view the complete list of interfaces on the Referência da API do Steamworks
or by diving into the Steamworks API header files.
Callbacks are one of the most important aspect of Steamworks, they allow you to retrieve data asynchronously from Steam without locking up your game. The goal of the callbacks are to provide a simple, light-weight, type-safe, thread-safe method of raising asynchronous events to any object registered as a listener.
Callbacks are usually triggered via an event that happens from Steam such as when ever a friend logs on or off, or the asynchronous result of some API functions. Each callback consists of a struct containing a unique identifier and a small set of data. The callbacks are declared in the
header files, grouped with the interface that it most closely belongs to.
To listen for a callback, a struct or class must use the macro
STEAM_CALLBACK( :classname, :functionname, :callbackname )
in it's declaration.
:classname must be the name of the struct or class where you are defining this. (eg.
:functionname will be the name of the function that receives this callback. (eg.
:callbackname is the name of the callback. (eg.
This defines a local member function for that class which is automatically prototyped as
void :functionname( :callbackname *pCallback )
. Creating a new instance of the object will cause this member function to register itself as a listener with the Steamworks API; destruction of the object will cause it to de-register.NOTE:
You should ensure that Steam has been initialized before creating objects that listen for callbacks.
For callbacks to dispatch to registered listeners you must call the SteamAPI_RunCallbacks
. It's best to call this frequently, as the more time between calls, the more latency between receiving events or results from the Steamworks API. Most games call this once per render-frame, it's highly recommended that you call this at least once a second. All registered listener functions will be invoked during this call, in the thread context where
was called from.
One callback that you will likely wish to use is ISteamFriends::GameOverlayActivated_t
. As the name implies it sends you a callback every time the user activates or deactivates the Steam Overlay
STEAM_CALLBACK( CGameManager, OnGameOverlayActivated, GameOverlayActivated_t );
void CGamemanager::OnGameOverlayActivated( GameOverlayActivated_t* pCallback )
if ( pCallback->m_bActive )
printf( "Steam overlay now active\n" );
printf( "Steam overlay now inactive\n" );
One popular and recommended use case for the ISteamFriends::GameOverlayActivated_t
callback is to pause the game when the overlay opens.
Many Steamworks methods use call results instead of a callback to asynchronously return results from a function call. The difference between a callback and call results is that callbacks are broadcast to all listeners, where-as call results only target a specific listener. Like callbacks, your game will need to call SteamAPI_RunCallbacks
to dispatch call results to their listener.
You can identify a function that provides a call result by inspecting it's return value; if it returns a SteamAPICall_t
and has a
attribute then you must register to receive the call result.NOTE:
Callbacks and call results are not interchangeable. An event will only come through one or the other, not both. You must make sure that you are registering for the right type of event!
Call results must be created as a member in a struct/class using the CCallResult type and you will also need to create the member function that will receive the callback.
void func( :callresultname *pCallback, bool bIOFailure );
CCallResult< :classname, :callresultname > m_callresultname;
:classname must be the name of the struct or class where you are defining this. (eg.
:callresultname is the name of the callback. (eg.
Feel free to name the function, function parameters, and CCallResult type anything you want.
Here's an example of how to use the ISteamUserStats::GetNumberOfCurrentPlayers
API which produces a ISteamUserStats::NumberOfCurrentPlayers_t
// In your class definition
void OnGetNumberOfCurrentPlayers( NumberOfCurrentPlayers_t *pCallback, bool bIOFailure );
CCallResult< CGameManager, NumberOfCurrentPlayers_t > m_NumberOfCurrentPlayersCallResult;
// Make the asynchronous request to receive the number of current players.
printf( "Getting Number of Current Players\n" );
SteamAPICall_t hSteamAPICall = SteamUserStats()->GetNumberOfCurrentPlayers();
m_NumberOfCurrentPlayersCallResult.Set( hSteamAPICall, this, &CGameManager::OnGetNumberOfCurrentPlayers );
// Called when SteamUserStats()->GetNumberOfCurrentPlayers() returns asynchronously, after a call to SteamAPI_RunCallbacks().
void CGameManager::OnGetNumberOfCurrentPlayers( NumberOfCurrentPlayers_t *pCallback, bool bIOFailure )
if ( bIOFailure || !pCallback->m_bSuccess )
printf( "NumberOfCurrentPlayers_t failed!\n" );
printf( "Number of players currently playing: %d\n", pCallback->m_cPlayers );
If you can't use the CCallResult system, then you may be able to use ISteamUtils::IsAPICallCompleted
to track the status of a call result.
Steam Game Servers
The Steamworks API includes support for running game servers as well as regular clients. A game server, in Steamworks API terms, is an entity in the system that normal users connect to to play multi-player games. This can be connecting over the Internet to a remote game server, or connecting locally to a game server that's in the same process as the client. Game servers have their own set of API functions to use, and their own unique Steam ID for other users to refer to them by.
To use the Steam Game Server API you must first include
Initializing and using the game server API is very similar to the normal API:
After initializing a game server you have access to the two game server exclusive interfaces ISteamGameServer
You can also access the following regular interfaces from the game server:
- ISteamClient which you can access via the global interface:
- ISteamUtils which you can access via the global interface:
- ISteamNetworking which you can access via the global interface:
- ISteamHTTP which you can access via the global interface:
- ISteamInventory which you can access via the global interface:
- ISteamUGC which you can access via the global interface:
- ISteamApps which you can access via the global interface:
If you're running a dedicated game server (one which has no client component), you only have to initialize the game server API's, you don't have to initialize the normal user API.
See Steamworks API Example Application (SpaceWar)
for a fully loaded example of using the game server API.
Commercial engine and non-C++ language support
If you're using a commercial game engine or a language other than C or C++ you will want to see what level of support for the Steamworks API is provided for it.
In some engines they provide native built-in support, for others you may need a third-party solution.
If your engine does not have native support you can use the Steam Web API
to access many features that Steam supports.
Regardless of how the Steamworks SDK is implemented in your engine you will need to have the latest Steamworks SDK to upload your application to Steam
If some of the software you are shipping on steam is available under a restrictive open source license then please see Distributing Open Source Applications on Steam
Here are some common engines that people routinely use to ship games on Steam and the relevant documentation on how to get started using the Steamworks SDK with them.NOTE:
Valve does not in any way endorse any of these engines or the third-party solutions. This list is sorted exclusively by name, and is in no way comprehensive, it exists solely as a starting guide. Engines will only be listed if they include native support or have a third-party solution that fits the guidelines. Third-party solutions will only be listed if they are kept reasonably up to date with the Steamworks SDK, are freely available under a permissive license (See: Distributing Open Source Applications on Steam
), and have a thread on the Steamworks Discussion Board
. We recommend that you consult the community to see which option would work best for your specific setup.
- ActionScript (Adobe Flash, AIR)
Steam uses a variety of techniques to expose functionality to your application. It's by no means critical to understand exactly how the Steamworks API works but it's fairly simple and can be useful in planning out how to code your game with Steam integration in mind.
When you link to
it provides access to a small number of C functions
which are prefixed with the
macro, these functions are all exposed in
module itself is very small, it only exposes the base functionality to initialize and shutdown the Steamworks API.
When the Steamworks API initializes it finds the actively running steam client process and loads
from that path.
is essentially the core engine of the Steam client. It contains and maintains the information necessary to run Steam. The Steam client UI uses a similar set of functions as exposed here to access the data provided by
. Since this data is in the Steam process, all Steam API calls are transparently marshaled and sent via an RPC/IPC mechanism. (A cross-process pipe, ISteamClient::HSteamPipe
The Steam process, via
maintains a constant connection to the Steam back-end servers. Through this connection all authentication, matchmaking, friends list and VAC communication occurs. This connection may drop if the user has a network issue, or if the Steam server they are connected to receives an update. Callbacks will be posted to any running app if the connection drops or re-establishes. The Steam client will automatically try to reconnect, and clients running an app receive priority, so the typical reconnect time is under 10 seconds, although in some rare cases may be up to 5 minutes.
The Steamworks API is versioned through a COM-like mechanism, where a string name and version of an interface are passed into
which then returns the correct version of the interface to the caller.
contains a set of adapters for all released versions of an interface which redirect or re-interpret the old calls in the context of the latest interface. The adapters live inside the steam client so that they are easy to update if any issues arise.