lsteamclient: Synthesize SDK version 1.11x

For STEAMREMOTESTORAGE_INTERFACE_VERSION003 and
STEAMUSERSTATS_INTERFACE_VERSION008.
This commit is contained in:
Andrew Eikum 2019-02-05 15:06:21 -06:00
parent 9f60ff6603
commit e0ddf0fc28
33 changed files with 6003 additions and 0 deletions

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#include "steam_defs.h"
#include "steamworks_sdk_111x/steam_api.h"
#include "steamclient_private.h"
#include "cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003.h"
#ifdef __cplusplus
extern "C" {
#endif
#include "struct_converters_111x.h"
bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileWrite(void *linux_side, const char * pchFile, const void * pvData, int32 cubData)
{
return ((ISteamRemoteStorage*)linux_side)->FileWrite((const char *)pchFile, (const void *)pvData, (int32)cubData);
}
int32 cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileRead(void *linux_side, const char * pchFile, void * pvData, int32 cubDataToRead)
{
return ((ISteamRemoteStorage*)linux_side)->FileRead((const char *)pchFile, (void *)pvData, (int32)cubDataToRead);
}
bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileForget(void *linux_side, const char * pchFile)
{
return ((ISteamRemoteStorage*)linux_side)->FileForget((const char *)pchFile);
}
bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileDelete(void *linux_side, const char * pchFile)
{
return ((ISteamRemoteStorage*)linux_side)->FileDelete((const char *)pchFile);
}
SteamAPICall_t cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileShare(void *linux_side, const char * pchFile)
{
return ((ISteamRemoteStorage*)linux_side)->FileShare((const char *)pchFile);
}
bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileExists(void *linux_side, const char * pchFile)
{
return ((ISteamRemoteStorage*)linux_side)->FileExists((const char *)pchFile);
}
bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FilePersisted(void *linux_side, const char * pchFile)
{
return ((ISteamRemoteStorage*)linux_side)->FilePersisted((const char *)pchFile);
}
int32 cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileSize(void *linux_side, const char * pchFile)
{
return ((ISteamRemoteStorage*)linux_side)->GetFileSize((const char *)pchFile);
}
int64 cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileTimestamp(void *linux_side, const char * pchFile)
{
return ((ISteamRemoteStorage*)linux_side)->GetFileTimestamp((const char *)pchFile);
}
int32 cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileCount(void *linux_side)
{
return ((ISteamRemoteStorage*)linux_side)->GetFileCount();
}
const char * cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileNameAndSize(void *linux_side, int iFile, int32 * pnFileSizeInBytes)
{
return ((ISteamRemoteStorage*)linux_side)->GetFileNameAndSize((int)iFile, (int32 *)pnFileSizeInBytes);
}
bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetQuota(void *linux_side, int32 * pnTotalBytes, int32 * puAvailableBytes)
{
return ((ISteamRemoteStorage*)linux_side)->GetQuota((int32 *)pnTotalBytes, (int32 *)puAvailableBytes);
}
bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_IsCloudEnabledForAccount(void *linux_side)
{
return ((ISteamRemoteStorage*)linux_side)->IsCloudEnabledForAccount();
}
bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_IsCloudEnabledForApp(void *linux_side)
{
return ((ISteamRemoteStorage*)linux_side)->IsCloudEnabledForApp();
}
void cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_SetCloudEnabledForApp(void *linux_side, bool bEnabled)
{
((ISteamRemoteStorage*)linux_side)->SetCloudEnabledForApp((bool)bEnabled);
}
SteamAPICall_t cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_UGCDownload(void *linux_side, UGCHandle_t hContent)
{
return ((ISteamRemoteStorage*)linux_side)->UGCDownload((UGCHandle_t)hContent);
}
bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetUGCDetails(void *linux_side, UGCHandle_t hContent, AppId_t * pnAppID, char ** ppchName, int32 * pnFileSizeInBytes, CSteamID * pSteamIDOwner)
{
return ((ISteamRemoteStorage*)linux_side)->GetUGCDetails((UGCHandle_t)hContent, (AppId_t *)pnAppID, (char **)ppchName, (int32 *)pnFileSizeInBytes, (CSteamID *)pSteamIDOwner);
}
int32 cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_UGCRead(void *linux_side, UGCHandle_t hContent, void * pvData, int32 cubDataToRead)
{
return ((ISteamRemoteStorage*)linux_side)->UGCRead((UGCHandle_t)hContent, (void *)pvData, (int32)cubDataToRead);
}
int32 cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetCachedUGCCount(void *linux_side)
{
return ((ISteamRemoteStorage*)linux_side)->GetCachedUGCCount();
}
UGCHandle_t cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetCachedUGCHandle(void *linux_side, int32 iCachedContent)
{
return ((ISteamRemoteStorage*)linux_side)->GetCachedUGCHandle((int32)iCachedContent);
}
#ifdef __cplusplus
}
#endif

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#ifdef __cplusplus
extern "C" {
#endif
extern bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileWrite(void *, const char *, const void *, int32);
extern int32 cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileRead(void *, const char *, void *, int32);
extern bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileForget(void *, const char *);
extern bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileDelete(void *, const char *);
extern SteamAPICall_t cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileShare(void *, const char *);
extern bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileExists(void *, const char *);
extern bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FilePersisted(void *, const char *);
extern int32 cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileSize(void *, const char *);
extern int64 cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileTimestamp(void *, const char *);
extern int32 cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileCount(void *);
extern const char * cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileNameAndSize(void *, int, int32 *);
extern bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetQuota(void *, int32 *, int32 *);
extern bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_IsCloudEnabledForAccount(void *);
extern bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_IsCloudEnabledForApp(void *);
extern void cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_SetCloudEnabledForApp(void *, bool);
extern SteamAPICall_t cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_UGCDownload(void *, UGCHandle_t);
extern bool cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetUGCDetails(void *, UGCHandle_t, AppId_t *, char **, int32 *, CSteamID *);
extern int32 cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_UGCRead(void *, UGCHandle_t, void *, int32);
extern int32 cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetCachedUGCCount(void *);
extern UGCHandle_t cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetCachedUGCHandle(void *, int32);
#ifdef __cplusplus
}
#endif

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#include "steam_defs.h"
#include "steamworks_sdk_111x/steam_api.h"
#include "steamclient_private.h"
#include "cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008.h"
#ifdef __cplusplus
extern "C" {
#endif
#include "struct_converters_111x.h"
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_RequestCurrentStats(void *linux_side)
{
return ((ISteamUserStats*)linux_side)->RequestCurrentStats();
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetStat(void *linux_side, const char * pchName, int32 * pData)
{
return ((ISteamUserStats*)linux_side)->GetStat((const char *)pchName, (int32 *)pData);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetStat_2(void *linux_side, const char * pchName, float * pData)
{
return ((ISteamUserStats*)linux_side)->GetStat((const char *)pchName, (float *)pData);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetStat(void *linux_side, const char * pchName, int32 nData)
{
return ((ISteamUserStats*)linux_side)->SetStat((const char *)pchName, (int32)nData);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetStat_2(void *linux_side, const char * pchName, float fData)
{
return ((ISteamUserStats*)linux_side)->SetStat((const char *)pchName, (float)fData);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_UpdateAvgRateStat(void *linux_side, const char * pchName, float flCountThisSession, double dSessionLength)
{
return ((ISteamUserStats*)linux_side)->UpdateAvgRateStat((const char *)pchName, (float)flCountThisSession, (double)dSessionLength);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievement(void *linux_side, const char * pchName, bool * pbAchieved)
{
return ((ISteamUserStats*)linux_side)->GetAchievement((const char *)pchName, (bool *)pbAchieved);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetAchievement(void *linux_side, const char * pchName)
{
return ((ISteamUserStats*)linux_side)->SetAchievement((const char *)pchName);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_ClearAchievement(void *linux_side, const char * pchName)
{
return ((ISteamUserStats*)linux_side)->ClearAchievement((const char *)pchName);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementAndUnlockTime(void *linux_side, const char * pchName, bool * pbAchieved, uint32 * punUnlockTime)
{
return ((ISteamUserStats*)linux_side)->GetAchievementAndUnlockTime((const char *)pchName, (bool *)pbAchieved, (uint32 *)punUnlockTime);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_StoreStats(void *linux_side)
{
return ((ISteamUserStats*)linux_side)->StoreStats();
}
int cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementIcon(void *linux_side, const char * pchName)
{
return ((ISteamUserStats*)linux_side)->GetAchievementIcon((const char *)pchName);
}
const char * cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementDisplayAttribute(void *linux_side, const char * pchName, const char * pchKey)
{
return ((ISteamUserStats*)linux_side)->GetAchievementDisplayAttribute((const char *)pchName, (const char *)pchKey);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_IndicateAchievementProgress(void *linux_side, const char * pchName, uint32 nCurProgress, uint32 nMaxProgress)
{
return ((ISteamUserStats*)linux_side)->IndicateAchievementProgress((const char *)pchName, (uint32)nCurProgress, (uint32)nMaxProgress);
}
SteamAPICall_t cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_RequestUserStats(void *linux_side, CSteamID steamIDUser)
{
return ((ISteamUserStats*)linux_side)->RequestUserStats((CSteamID)steamIDUser);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserStat(void *linux_side, CSteamID steamIDUser, const char * pchName, int32 * pData)
{
return ((ISteamUserStats*)linux_side)->GetUserStat((CSteamID)steamIDUser, (const char *)pchName, (int32 *)pData);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserStat_2(void *linux_side, CSteamID steamIDUser, const char * pchName, float * pData)
{
return ((ISteamUserStats*)linux_side)->GetUserStat((CSteamID)steamIDUser, (const char *)pchName, (float *)pData);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserAchievement(void *linux_side, CSteamID steamIDUser, const char * pchName, bool * pbAchieved)
{
return ((ISteamUserStats*)linux_side)->GetUserAchievement((CSteamID)steamIDUser, (const char *)pchName, (bool *)pbAchieved);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserAchievementAndUnlockTime(void *linux_side, CSteamID steamIDUser, const char * pchName, bool * pbAchieved, uint32 * punUnlockTime)
{
return ((ISteamUserStats*)linux_side)->GetUserAchievementAndUnlockTime((CSteamID)steamIDUser, (const char *)pchName, (bool *)pbAchieved, (uint32 *)punUnlockTime);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_ResetAllStats(void *linux_side, bool bAchievementsToo)
{
return ((ISteamUserStats*)linux_side)->ResetAllStats((bool)bAchievementsToo);
}
SteamAPICall_t cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_FindOrCreateLeaderboard(void *linux_side, const char * pchLeaderboardName, ELeaderboardSortMethod eLeaderboardSortMethod, ELeaderboardDisplayType eLeaderboardDisplayType)
{
return ((ISteamUserStats*)linux_side)->FindOrCreateLeaderboard((const char *)pchLeaderboardName, (ELeaderboardSortMethod)eLeaderboardSortMethod, (ELeaderboardDisplayType)eLeaderboardDisplayType);
}
SteamAPICall_t cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_FindLeaderboard(void *linux_side, const char * pchLeaderboardName)
{
return ((ISteamUserStats*)linux_side)->FindLeaderboard((const char *)pchLeaderboardName);
}
const char * cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardName(void *linux_side, SteamLeaderboard_t hSteamLeaderboard)
{
return ((ISteamUserStats*)linux_side)->GetLeaderboardName((SteamLeaderboard_t)hSteamLeaderboard);
}
int cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardEntryCount(void *linux_side, SteamLeaderboard_t hSteamLeaderboard)
{
return ((ISteamUserStats*)linux_side)->GetLeaderboardEntryCount((SteamLeaderboard_t)hSteamLeaderboard);
}
ELeaderboardSortMethod cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardSortMethod(void *linux_side, SteamLeaderboard_t hSteamLeaderboard)
{
return ((ISteamUserStats*)linux_side)->GetLeaderboardSortMethod((SteamLeaderboard_t)hSteamLeaderboard);
}
ELeaderboardDisplayType cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardDisplayType(void *linux_side, SteamLeaderboard_t hSteamLeaderboard)
{
return ((ISteamUserStats*)linux_side)->GetLeaderboardDisplayType((SteamLeaderboard_t)hSteamLeaderboard);
}
SteamAPICall_t cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_DownloadLeaderboardEntries(void *linux_side, SteamLeaderboard_t hSteamLeaderboard, ELeaderboardDataRequest eLeaderboardDataRequest, int nRangeStart, int nRangeEnd)
{
return ((ISteamUserStats*)linux_side)->DownloadLeaderboardEntries((SteamLeaderboard_t)hSteamLeaderboard, (ELeaderboardDataRequest)eLeaderboardDataRequest, (int)nRangeStart, (int)nRangeEnd);
}
bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetDownloadedLeaderboardEntry(void *linux_side, SteamLeaderboardEntries_t hSteamLeaderboardEntries, int index, LeaderboardEntry_t * pLeaderboardEntry, int32 * pDetails, int cDetailsMax)
{
LeaderboardEntry_t lin_pLeaderboardEntry;
win_to_lin_struct_LeaderboardEntry_t_111x(pLeaderboardEntry, &lin_pLeaderboardEntry);
bool retval = ((ISteamUserStats*)linux_side)->GetDownloadedLeaderboardEntry((SteamLeaderboardEntries_t)hSteamLeaderboardEntries, (int)index, &lin_pLeaderboardEntry, (int32 *)pDetails, (int)cDetailsMax);
lin_to_win_struct_LeaderboardEntry_t_111x(&lin_pLeaderboardEntry, pLeaderboardEntry);
return retval;
}
SteamAPICall_t cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_UploadLeaderboardScore(void *linux_side, SteamLeaderboard_t hSteamLeaderboard, ELeaderboardUploadScoreMethod eLeaderboardUploadScoreMethod, int32 nScore, const int32 * pScoreDetails, int cScoreDetailsCount)
{
return ((ISteamUserStats*)linux_side)->UploadLeaderboardScore((SteamLeaderboard_t)hSteamLeaderboard, (ELeaderboardUploadScoreMethod)eLeaderboardUploadScoreMethod, (int32)nScore, (const int32 *)pScoreDetails, (int)cScoreDetailsCount);
}
SteamAPICall_t cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_AttachLeaderboardUGC(void *linux_side, SteamLeaderboard_t hSteamLeaderboard, UGCHandle_t hUGC)
{
return ((ISteamUserStats*)linux_side)->AttachLeaderboardUGC((SteamLeaderboard_t)hSteamLeaderboard, (UGCHandle_t)hUGC);
}
SteamAPICall_t cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetNumberOfCurrentPlayers(void *linux_side)
{
return ((ISteamUserStats*)linux_side)->GetNumberOfCurrentPlayers();
}
#ifdef __cplusplus
}
#endif

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#ifdef __cplusplus
extern "C" {
#endif
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_RequestCurrentStats(void *);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetStat(void *, const char *, int32 *);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetStat_2(void *, const char *, float *);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetStat(void *, const char *, int32);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetStat_2(void *, const char *, float);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_UpdateAvgRateStat(void *, const char *, float, double);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievement(void *, const char *, bool *);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetAchievement(void *, const char *);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_ClearAchievement(void *, const char *);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementAndUnlockTime(void *, const char *, bool *, uint32 *);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_StoreStats(void *);
extern int cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementIcon(void *, const char *);
extern const char * cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementDisplayAttribute(void *, const char *, const char *);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_IndicateAchievementProgress(void *, const char *, uint32, uint32);
extern SteamAPICall_t cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_RequestUserStats(void *, CSteamID);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserStat(void *, CSteamID, const char *, int32 *);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserStat_2(void *, CSteamID, const char *, float *);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserAchievement(void *, CSteamID, const char *, bool *);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserAchievementAndUnlockTime(void *, CSteamID, const char *, bool *, uint32 *);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_ResetAllStats(void *, bool);
extern SteamAPICall_t cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_FindOrCreateLeaderboard(void *, const char *, ELeaderboardSortMethod, ELeaderboardDisplayType);
extern SteamAPICall_t cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_FindLeaderboard(void *, const char *);
extern const char * cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardName(void *, SteamLeaderboard_t);
extern int cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardEntryCount(void *, SteamLeaderboard_t);
extern ELeaderboardSortMethod cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardSortMethod(void *, SteamLeaderboard_t);
extern ELeaderboardDisplayType cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardDisplayType(void *, SteamLeaderboard_t);
extern SteamAPICall_t cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_DownloadLeaderboardEntries(void *, SteamLeaderboard_t, ELeaderboardDataRequest, int, int);
extern bool cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetDownloadedLeaderboardEntry(void *, SteamLeaderboardEntries_t, int, LeaderboardEntry_t *, int32 *, int);
extern SteamAPICall_t cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_UploadLeaderboardScore(void *, SteamLeaderboard_t, ELeaderboardUploadScoreMethod, int32, const int32 *, int);
extern SteamAPICall_t cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_AttachLeaderboardUGC(void *, SteamLeaderboard_t, UGCHandle_t);
extern SteamAPICall_t cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetNumberOfCurrentPlayers(void *);
#ifdef __cplusplus
}
#endif

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@ -58,6 +58,7 @@ sdk_versions = [
"113",
"112x",
"112",
"111x",
"111",
"110",
"109",

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//====== Copyright © 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose: interface to app data in Steam
//
//=============================================================================
#ifndef ISTEAMAPPS_H
#define ISTEAMAPPS_H
#ifdef _WIN32
#pragma once
#endif
//-----------------------------------------------------------------------------
// Purpose: interface to app data
//-----------------------------------------------------------------------------
class ISteamApps
{
public:
virtual bool BIsSubscribed() = 0;
virtual bool BIsLowViolence() = 0;
virtual bool BIsCybercafe() = 0;
virtual bool BIsVACBanned() = 0;
virtual const char *GetCurrentGameLanguage() = 0;
virtual const char *GetAvailableGameLanguages() = 0;
// only use this member if you need to check ownership of another game related to yours, a demo for example
virtual bool BIsSubscribedApp( AppId_t appID ) = 0;
// Takes AppID of DLC and checks if the user owns the DLC & if the DLC is installed
virtual bool BIsDlcInstalled( AppId_t appID ) = 0;
// returns the Unix time of the purchase of the app
virtual uint32 GetEarliestPurchaseUnixTime( AppId_t nAppID ) = 0;
// Checks if the user is subscribed to the current app through a free weekend
// This function will return false for users who have a retail or other type of license
// Before using, please ask your Valve technical contact how to package and secure your free weekened
virtual bool BIsSubscribedFromFreeWeekend() = 0;
};
#define STEAMAPPS_INTERFACE_VERSION "STEAMAPPS_INTERFACE_VERSION004"
// callbacks
#pragma pack( push, 8 )
//-----------------------------------------------------------------------------
// Purpose: posted after the user gains ownership of DLC & that DLC is installed
//-----------------------------------------------------------------------------
struct DlcInstalled_t
{
enum { k_iCallback = k_iSteamAppsCallbacks + 5 };
AppId_t m_nAppID; // AppID of the DLC
};
#pragma pack( pop )
#endif // ISTEAMAPPS_H

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//====== Copyright 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose: a private, but well versioned, interface to get at critical bits
// of a steam3 appticket - consumed by the simple drm wrapper to let it
// ask about ownership with greater confidence.
//
//=============================================================================
#ifndef ISTEAMAPPTICKET_H
#define ISTEAMAPPTICKET_H
#ifdef WIN32
#pragma once
#endif
#include "steamtypes.h"
//-----------------------------------------------------------------------------
// Purpose: hand out a reasonable "future proof" view of an app ownership ticket
// the raw (signed) buffer, and indices into that buffer where the appid and
// steamid are located. the sizes of the appid and steamid are implicit in
// (each version of) the interface - currently uin32 appid and uint64 steamid
//-----------------------------------------------------------------------------
class ISteamAppTicket
{
public:
virtual uint32 GetAppOwnershipTicketData( uint32 nAppID, void *pvBuffer, uint32 cbBufferLength, uint32 *piAppId, uint32 *piSteamId, uint32 *piSignature, uint32 *pcbSignature ) = 0;
};
#define STEAMAPPTICKET_INTERFACE_VERSION "STEAMAPPTICKET_INTERFACE_VERSION001"
#endif // ISTEAMAPPTICKET_H

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//====== Copyright <20> 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose: Main interface for loading and accessing Steamworks API's from the
// Steam client.
// For most uses, this code is wrapped inside of SteamAPI_Init()
//=============================================================================
#ifndef ISTEAMCLIENT_H
#define ISTEAMCLIENT_H
#ifdef _WIN32
#pragma once
#endif
#include "steamtypes.h"
#include "steamclientpublic.h"
// handle to a communication pipe to the Steam client
typedef int32 HSteamPipe;
// handle to single instance of a steam user
typedef int32 HSteamUser;
// function prototype
#if defined( POSIX )
#define __cdecl
#endif
extern "C" typedef void (__cdecl *SteamAPIWarningMessageHook_t)(int, const char *);
#if defined( __SNC__ )
#pragma diag_suppress=1700 // warning 1700: class "%s" has virtual functions but non-virtual destructor
#endif
// interface predec
class ISteamUser;
class ISteamGameServer;
class ISteamFriends;
class ISteamUtils;
class ISteamMatchmaking;
class ISteamContentServer;
class ISteamMasterServerUpdater;
class ISteamMatchmakingServers;
class ISteamUserStats;
class ISteamApps;
class ISteamNetworking;
class ISteamRemoteStorage;
class ISteamGameServerStats;
//-----------------------------------------------------------------------------
// Purpose: Interface to creating a new steam instance, or to
// connect to an existing steam instance, whether it's in a
// different process or is local.
//
// For most scenarios this is all handled automatically via SteamAPI_Init().
// You'll only need to use these interfaces if you have a more complex versioning scheme,
// where you want to get different versions of the same interface in different dll's in your project.
//-----------------------------------------------------------------------------
class ISteamClient
{
public:
// Creates a communication pipe to the Steam client
virtual HSteamPipe CreateSteamPipe() = 0;
// Releases a previously created communications pipe
virtual bool BReleaseSteamPipe( HSteamPipe hSteamPipe ) = 0;
// connects to an existing global user, failing if none exists
// used by the game to coordinate with the steamUI
virtual HSteamUser ConnectToGlobalUser( HSteamPipe hSteamPipe ) = 0;
// used by game servers, create a steam user that won't be shared with anyone else
virtual HSteamUser CreateLocalUser( HSteamPipe *phSteamPipe, EAccountType eAccountType ) = 0;
// removes an allocated user
virtual void ReleaseUser( HSteamPipe hSteamPipe, HSteamUser hUser ) = 0;
// retrieves the ISteamUser interface associated with the handle
virtual ISteamUser *GetISteamUser( HSteamUser hSteamUser, HSteamPipe hSteamPipe, const char *pchVersion ) = 0;
// retrieves the ISteamGameServer interface associated with the handle
virtual ISteamGameServer *GetISteamGameServer( HSteamUser hSteamUser, HSteamPipe hSteamPipe, const char *pchVersion ) = 0;
// set the local IP and Port to bind to
// this must be set before CreateLocalUser()
virtual void SetLocalIPBinding( uint32 unIP, uint16 usPort ) = 0;
// returns the ISteamFriends interface
virtual ISteamFriends *GetISteamFriends( HSteamUser hSteamUser, HSteamPipe hSteamPipe, const char *pchVersion ) = 0;
// returns the ISteamUtils interface
virtual ISteamUtils *GetISteamUtils( HSteamPipe hSteamPipe, const char *pchVersion ) = 0;
// returns the ISteamMatchmaking interface
virtual ISteamMatchmaking *GetISteamMatchmaking( HSteamUser hSteamUser, HSteamPipe hSteamPipe, const char *pchVersion ) = 0;
// returns the ISteamMasterServerUpdater interface
virtual ISteamMasterServerUpdater *GetISteamMasterServerUpdater( HSteamUser hSteamUser, HSteamPipe hSteamPipe, const char *pchVersion ) = 0;
// returns the ISteamMatchmakingServers interface
virtual ISteamMatchmakingServers *GetISteamMatchmakingServers( HSteamUser hSteamUser, HSteamPipe hSteamPipe, const char *pchVersion ) = 0;
// returns the a generic interface
virtual void *GetISteamGenericInterface( HSteamUser hSteamUser, HSteamPipe hSteamPipe, const char *pchVersion ) = 0;
// returns the ISteamUserStats interface
virtual ISteamUserStats *GetISteamUserStats( HSteamUser hSteamUser, HSteamPipe hSteamPipe, const char *pchVersion ) = 0;
// returns the ISteamGameServerStats interface
virtual ISteamGameServerStats *GetISteamGameServerStats( HSteamUser hSteamuser, HSteamPipe hSteamPipe, const char *pchVersion ) = 0;
// returns apps interface
virtual ISteamApps *GetISteamApps( HSteamUser hSteamUser, HSteamPipe hSteamPipe, const char *pchVersion ) = 0;
// networking
virtual ISteamNetworking *GetISteamNetworking( HSteamUser hSteamUser, HSteamPipe hSteamPipe, const char *pchVersion ) = 0;
// remote storage
virtual ISteamRemoteStorage *GetISteamRemoteStorage( HSteamUser hSteamuser, HSteamPipe hSteamPipe, const char *pchVersion ) = 0;
// this needs to be called every frame to process matchmaking results
// redundant if you're already calling SteamAPI_RunCallbacks()
virtual void RunFrame() = 0;
// returns the number of IPC calls made since the last time this function was called
// Used for perf debugging so you can understand how many IPC calls your game makes per frame
// Every IPC call is at minimum a thread context switch if not a process one so you want to rate
// control how often you do them.
virtual uint32 GetIPCCallCount() = 0;
// API warning handling
// 'int' is the severity; 0 for msg, 1 for warning
// 'const char *' is the text of the message
// callbacks will occur directly after the API function is called that generated the warning or message
virtual void SetWarningMessageHook( SteamAPIWarningMessageHook_t pFunction ) = 0;
// Trigger global shutdown for the DLL
virtual bool BShutdownIfAllPipesClosed() = 0;
};
#define STEAMCLIENT_INTERFACE_VERSION "SteamClient010"
//-----------------------------------------------------------------------------
// Purpose: Base values for callback identifiers, each callback must
// have a unique ID.
//-----------------------------------------------------------------------------
enum { k_iSteamUserCallbacks = 100 };
enum { k_iSteamGameServerCallbacks = 200 };
enum { k_iSteamFriendsCallbacks = 300 };
enum { k_iSteamBillingCallbacks = 400 };
enum { k_iSteamMatchmakingCallbacks = 500 };
enum { k_iSteamContentServerCallbacks = 600 };
enum { k_iSteamUtilsCallbacks = 700 };
enum { k_iClientFriendsCallbacks = 800 };
enum { k_iClientUserCallbacks = 900 };
enum { k_iSteamAppsCallbacks = 1000 };
enum { k_iSteamUserStatsCallbacks = 1100 };
enum { k_iSteamNetworkingCallbacks = 1200 };
enum { k_iClientRemoteStorageCallbacks = 1300 };
enum { k_iSteamUserItemsCallbacks = 1400 };
enum { k_iSteamGameServerItemsCallbacks = 1500 };
enum { k_iClientUtilsCallbacks = 1600 };
enum { k_iSteamGameCoordinatorCallbacks = 1700 };
enum { k_iSteamGameServerStatsCallbacks = 1800 };
enum { k_iSteam2AsyncCallbacks = 1900 };
enum { k_iSteamGameStatsCallbacks = 2000 };
enum { k_iClientHTTPCallbacks = 2100 };
#endif // ISTEAMCLIENT_H

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//====== Copyright © 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose: interface to both friends list data and general information about users
//
//=============================================================================
#ifndef ISTEAMFRIENDS_H
#define ISTEAMFRIENDS_H
#ifdef _WIN32
#pragma once
#endif
#include "isteamclient.h"
#include "steamclientpublic.h"
//-----------------------------------------------------------------------------
// Purpose: set of relationships to other users
//-----------------------------------------------------------------------------
enum EFriendRelationship
{
k_EFriendRelationshipNone = 0,
k_EFriendRelationshipBlocked = 1,
k_EFriendRelationshipRequestRecipient = 2,
k_EFriendRelationshipFriend = 3,
k_EFriendRelationshipRequestInitiator = 4,
k_EFriendRelationshipIgnored = 5,
k_EFriendRelationshipIgnoredFriend = 6,
};
//-----------------------------------------------------------------------------
// Purpose: list of states a friend can be in
//-----------------------------------------------------------------------------
enum EPersonaState
{
k_EPersonaStateOffline = 0, // friend is not currently logged on
k_EPersonaStateOnline = 1, // friend is logged on
k_EPersonaStateBusy = 2, // user is on, but busy
k_EPersonaStateAway = 3, // auto-away feature
k_EPersonaStateSnooze = 4, // auto-away for a long time
k_EPersonaStateMax,
};
//-----------------------------------------------------------------------------
// Purpose: flags for enumerating friends list, or quickly checking a the relationship between users
//-----------------------------------------------------------------------------
enum EFriendFlags
{
k_EFriendFlagNone = 0x00,
k_EFriendFlagBlocked = 0x01,
k_EFriendFlagFriendshipRequested = 0x02,
k_EFriendFlagImmediate = 0x04, // "regular" friend
k_EFriendFlagClanMember = 0x08,
k_EFriendFlagOnGameServer = 0x10,
// k_EFriendFlagHasPlayedWith = 0x20, // not currently used
// k_EFriendFlagFriendOfFriend = 0x40, // not currently used
k_EFriendFlagRequestingFriendship = 0x80,
k_EFriendFlagRequestingInfo = 0x100,
k_EFriendFlagIgnored = 0x200,
k_EFriendFlagIgnoredFriend = 0x400,
k_EFriendFlagAll = 0xFFFF,
};
// friend game played information
#pragma pack( push, 8 )
struct FriendGameInfo_t
{
CGameID m_gameID;
uint32 m_unGameIP;
uint16 m_usGamePort;
uint16 m_usQueryPort;
CSteamID m_steamIDLobby;
};
#pragma pack( pop )
// maximum number of characters in a user's name. Two flavors; one for UTF-8 and one for UTF-16.
// The UTF-8 version has to be very generous to accomodate characters that get large when encoded
// in UTF-8.
enum
{
k_cchPersonaNameMax = 128,
k_cwchPersonaNameMax = 32,
};
//-----------------------------------------------------------------------------
// Purpose: user restriction flags
//-----------------------------------------------------------------------------
enum EUserRestriction
{
k_nUserRestrictionNone = 0, // no known chat/content restriction
k_nUserRestrictionUnknown = 1, // we don't know yet (user offline)
k_nUserRestrictionChat = 2, // user is not allowed to send/recv text/voice chat
};
// size limit on chat room or member metadata
const uint32 k_cubChatMetadataMax = 8192;
//-----------------------------------------------------------------------------
// Purpose: interface to accessing information about individual users,
// that can be a friend, in a group, on a game server or in a lobby with the local user
//-----------------------------------------------------------------------------
class ISteamFriends
{
public:
// returns the local players name - guaranteed to not be NULL.
// this is the same name as on the users community profile page
// this is stored in UTF-8 format
// like all the other interface functions that return a char *, it's important that this pointer is not saved
// off; it will eventually be free'd or re-allocated
virtual const char *GetPersonaName() = 0;
// sets the player name, stores it on the server and publishes the changes to all friends who are online
virtual void SetPersonaName( const char *pchPersonaName ) = 0;
// gets the status of the current user
virtual EPersonaState GetPersonaState() = 0;
// friend iteration
// takes a set of k_EFriendFlags, and returns the number of users the client knows about who meet that criteria
// then GetFriendByIndex() can then be used to return the id's of each of those users
virtual int GetFriendCount( int iFriendFlags ) = 0;
// returns the steamID of a user
// iFriend is a index of range [0, GetFriendCount())
// iFriendsFlags must be the same value as used in GetFriendCount()
// the returned CSteamID can then be used by all the functions below to access details about the user
virtual CSteamID GetFriendByIndex( int iFriend, int iFriendFlags ) = 0;
// returns a relationship to a user
virtual EFriendRelationship GetFriendRelationship( CSteamID steamIDFriend ) = 0;
// returns the current status of the specified user
// this will only be known by the local user if steamIDFriend is in their friends list; on the same game server; in a chat room or lobby; or in a small group with the local user
virtual EPersonaState GetFriendPersonaState( CSteamID steamIDFriend ) = 0;
// returns the name another user - guaranteed to not be NULL.
// same rules as GetFriendPersonaState() apply as to whether or not the user knowns the name of the other user
// note that on first joining a lobby, chat room or game server the local user will not known the name of the other users automatically; that information will arrive asyncronously
//
virtual const char *GetFriendPersonaName( CSteamID steamIDFriend ) = 0;
// returns true if the friend is actually in a game, and fills in pFriendGameInfo with an extra details
virtual bool GetFriendGamePlayed( CSteamID steamIDFriend, FriendGameInfo_t *pFriendGameInfo ) = 0;
// accesses old friends names - returns an empty string when their are no more items in the history
virtual const char *GetFriendPersonaNameHistory( CSteamID steamIDFriend, int iPersonaName ) = 0;
// returns true if the specified user meets any of the criteria specified in iFriendFlags
// iFriendFlags can be the union (binary or, |) of one or more k_EFriendFlags values
virtual bool HasFriend( CSteamID steamIDFriend, int iFriendFlags ) = 0;
// clan (group) iteration and access functions
virtual int GetClanCount() = 0;
virtual CSteamID GetClanByIndex( int iClan ) = 0;
virtual const char *GetClanName( CSteamID steamIDClan ) = 0;
virtual const char *GetClanTag( CSteamID steamIDClan ) = 0;
// iterators for getting users in a chat room, lobby, game server or clan
// note that large clans that cannot be iterated by the local user
// steamIDSource can be the steamID of a group, game server, lobby or chat room
virtual int GetFriendCountFromSource( CSteamID steamIDSource ) = 0;
virtual CSteamID GetFriendFromSourceByIndex( CSteamID steamIDSource, int iFriend ) = 0;
// returns true if the local user can see that steamIDUser is a member or in steamIDSource
virtual bool IsUserInSource( CSteamID steamIDUser, CSteamID steamIDSource ) = 0;
// User is in a game pressing the talk button (will suppress the microphone for all voice comms from the Steam friends UI)
virtual void SetInGameVoiceSpeaking( CSteamID steamIDUser, bool bSpeaking ) = 0;
// activates the game overlay, with an optional dialog to open
// valid options are "Friends", "Community", "Players", "Settings", "LobbyInvite", "OfficialGameGroup", "Stats", "Achievements"
virtual void ActivateGameOverlay( const char *pchDialog ) = 0;
// activates game overlay to a specific place
// valid options are
// "steamid" - opens the overlay web browser to the specified user or groups profile
// "chat" - opens a chat window to the specified user, or joins the group chat
// "stats" - opens the overlay web browser to the specified user's stats
// "achievements" - opens the overlay web browser to the specified user's achievements
virtual void ActivateGameOverlayToUser( const char *pchDialog, CSteamID steamID ) = 0;
// activates game overlay web browser directly to the specified URL
// full address with protocol type is required, e.g. http://www.steamgames.com/
virtual void ActivateGameOverlayToWebPage( const char *pchURL ) = 0;
// activates game overlay to store page for app
virtual void ActivateGameOverlayToStore( AppId_t nAppID ) = 0;
// Mark a target user as 'played with'. This is a client-side only feature that requires that the calling user is
// in game
virtual void SetPlayedWith( CSteamID steamIDUserPlayedWith ) = 0;
// activates game overlay to open the invite dialog. Invitations will be sent for the provided lobby.
// You can also use ActivateGameOverlay( "LobbyInvite" ) to allow the user to create invitations for their current public lobby.
virtual void ActivateGameOverlayInviteDialog( CSteamID steamIDLobby ) = 0;
// gets the small (32x32) avatar of the current user, which is a handle to be used in IClientUtils::GetImageRGBA(), or 0 if none set
virtual int GetSmallFriendAvatar( CSteamID steamIDFriend ) = 0;
// gets the medium (64x64) avatar of the current user, which is a handle to be used in IClientUtils::GetImageRGBA(), or 0 if none set
virtual int GetMediumFriendAvatar( CSteamID steamIDFriend ) = 0;
// gets the large (184x184) avatar of the current user, which is a handle to be used in IClientUtils::GetImageRGBA(), or 0 if none set
// returns -1 if this image has yet to be loaded, in this case wait for a AvatarImageLoaded_t callback and then call this again
virtual int GetLargeFriendAvatar( CSteamID steamIDFriend ) = 0;
// requests information about a user - persona name & avatar
// if bRequireNameOnly is set, then the avatar of a user isn't downloaded
// - it's a lot slower to download avatars and churns the local cache, so if you don't need avatars, don't request them
// if returns true, it means that data is being requested, and a PersonaStateChanged_t callback will be posted when it's retrieved
// if returns false, it means that we already have all the details about that user, and functions can be called immediately
virtual bool RequestUserInformation( CSteamID steamIDUser, bool bRequireNameOnly ) = 0;
// requests information about a clan officer list
// when complete, data is returned in ClanOfficerListResponse_t call result
// this makes available the calls below
// you can only ask about clans that a user is a member of
// note that this won't download avatars automatically; if you get an officer,
// and no avatar image is available, call RequestUserInformation( steamID, false ) to download the avatar
virtual SteamAPICall_t RequestClanOfficerList( CSteamID steamIDClan ) = 0;
// iteration of clan officers - can only be done when a RequestClanOfficerList() call has completed
// returns the steamID of the clan owner
virtual CSteamID GetClanOwner( CSteamID steamIDClan ) = 0;
// returns the number of officers in a clan (including the owner)
virtual int GetClanOfficerCount( CSteamID steamIDClan ) = 0;
// returns the steamID of a clan officer, by index, of range [0,GetClanOfficerCount)
virtual CSteamID GetClanOfficerByIndex( CSteamID steamIDClan, int iOfficer ) = 0;
// if current user is chat restricted, he can't send or receive any text/voice chat messages.
// the user can't see custom avatars. But the user can be online and send/recv game invites.
// a chat restricted user can't add friends or join any groups.
virtual uint32 GetUserRestrictions() = 0;
};
#define STEAMFRIENDS_INTERFACE_VERSION "SteamFriends008"
// callbacks
#pragma pack( push, 8 )
//-----------------------------------------------------------------------------
// Purpose: called when a friends' status changes
//-----------------------------------------------------------------------------
struct PersonaStateChange_t
{
enum { k_iCallback = k_iSteamFriendsCallbacks + 4 };
uint64 m_ulSteamID; // steamID of the friend who changed
int m_nChangeFlags; // what's changed
};
// used in PersonaStateChange_t::m_nChangeFlags to describe what's changed about a user
// these flags describe what the client has learned has changed recently, so on startup you'll see a name, avatar & relationship change for every friend
enum EPersonaChange
{
k_EPersonaChangeName = 0x001,
k_EPersonaChangeStatus = 0x002,
k_EPersonaChangeComeOnline = 0x004,
k_EPersonaChangeGoneOffline = 0x008,
k_EPersonaChangeGamePlayed = 0x010,
k_EPersonaChangeGameServer = 0x020,
k_EPersonaChangeAvatar = 0x040,
k_EPersonaChangeJoinedSource= 0x080,
k_EPersonaChangeLeftSource = 0x100,
k_EPersonaChangeRelationshipChanged = 0x200,
k_EPersonaChangeNameFirstSet = 0x400,
};
//-----------------------------------------------------------------------------
// Purpose: posted when game overlay activates or deactivates
// the game can use this to be pause or resume single player games
//-----------------------------------------------------------------------------
struct GameOverlayActivated_t
{
enum { k_iCallback = k_iSteamFriendsCallbacks + 31 };
uint8 m_bActive; // true if it's just been activated, false otherwise
};
//-----------------------------------------------------------------------------
// Purpose: called when the user tries to join a different game server from their friends list
// game client should attempt to connect to specified server when this is received
//-----------------------------------------------------------------------------
struct GameServerChangeRequested_t
{
enum { k_iCallback = k_iSteamFriendsCallbacks + 32 };
char m_rgchServer[64]; // server address ("127.0.0.1:27015", "tf2.valvesoftware.com")
char m_rgchPassword[64]; // server password, if any
};
//-----------------------------------------------------------------------------
// Purpose: called when the user tries to join a lobby from their friends list
// game client should attempt to connect to specified lobby when this is received
//-----------------------------------------------------------------------------
struct GameLobbyJoinRequested_t
{
enum { k_iCallback = k_iSteamFriendsCallbacks + 33 };
CSteamID m_steamIDLobby;
CSteamID m_steamIDFriend; // the friend they did the join via (will be invalid if not directly via a friend)
};
//-----------------------------------------------------------------------------
// Purpose: called when an avatar is loaded in from a previous GetLargeFriendAvatar() call
// if the image wasn't already available
//-----------------------------------------------------------------------------
struct AvatarImageLoaded_t
{
enum { k_iCallback = k_iSteamFriendsCallbacks + 34 };
CSteamID m_steamID; // steamid the avatar has been loaded for
int m_iImage; // the image index of the now loaded image
int m_iWide; // width of the loaded image
int m_iTall; // height of the loaded image
};
//-----------------------------------------------------------------------------
// Purpose: marks the return of a request officer list call
//-----------------------------------------------------------------------------
struct ClanOfficerListResponse_t
{
enum { k_iCallback = k_iSteamFriendsCallbacks + 35 };
CSteamID m_steamIDClan;
int m_cOfficers;
uint8 m_bSuccess;
};
#pragma pack( pop )
#endif // ISTEAMFRIENDS_H

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//====== Copyright ©, Valve Corporation, All rights reserved. =======
//
// Purpose: interface to the game coordinator for this application
//
//=============================================================================
#ifndef ISTEAMGAMECOORDINATOR
#define ISTEAMGAMECOORDINATOR
#ifdef _WIN32
#pragma once
#endif
#include "isteamclient.h"
#include "steamtypes.h"
#include "steamclientpublic.h"
// list of possible return values from the ISteamGameCoordinator API
enum EGCResults
{
k_EGCResultOK = 0,
k_EGCResultNoMessage = 1, // There is no message in the queue
k_EGCResultBufferTooSmall = 2, // The buffer is too small for the requested message
k_EGCResultNotLoggedOn = 3, // The client is not logged onto Steam
k_EGCResultInvalidMessage = 4, // Something was wrong with the message being sent with SendMessage
};
//-----------------------------------------------------------------------------
// Purpose: Functions for sending and receiving messages from the Game Coordinator
// for this application
//-----------------------------------------------------------------------------
class ISteamGameCoordinator
{
public:
// sends a message to the Game Coordinator
virtual EGCResults SendMessage( uint32 unMsgType, const void *pubData, uint32 cubData ) = 0;
// returns true if there is a message waiting from the game coordinator
virtual bool IsMessageAvailable( uint32 *pcubMsgSize ) = 0;
// fills the provided buffer with the first message in the queue and returns k_EGCResultOK or
// returns k_EGCResultNoMessage if there is no message waiting. pcubMsgSize is filled with the message size.
// If the provided buffer is not large enough to fit the entire message, k_EGCResultBufferTooSmall is returned
// and the message remains at the head of the queue.
virtual EGCResults RetrieveMessage( uint32 *punMsgType, void *pubDest, uint32 cubDest, uint32 *pcubMsgSize ) = 0;
};
#define STEAMGAMECOORDINATOR_INTERFACE_VERSION "SteamGameCoordinator001"
// callback notification - A new message is available for reading from the message queue
struct GCMessageAvailable_t
{
enum { k_iCallback = k_iSteamGameCoordinatorCallbacks + 1 };
uint32 m_nMessageSize;
};
// callback notification - A message failed to make it to the GC. It may be down temporarily
struct GCMessageFailed_t
{
enum { k_iCallback = k_iSteamGameCoordinatorCallbacks + 2 };
};
#endif // ISTEAMGAMECOORDINATOR

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//====== Copyright (c) 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose: interface to steam for game servers
//
//=============================================================================
#ifndef ISTEAMGAMESERVER_H
#define ISTEAMGAMESERVER_H
#ifdef _WIN32
#pragma once
#endif
#include "isteamclient.h"
//-----------------------------------------------------------------------------
// Purpose: Functions for authenticating users via Steam to play on a game server
//-----------------------------------------------------------------------------
class ISteamGameServer
{
public:
// connection functions
virtual void LogOn() = 0;
virtual void LogOff() = 0;
// status functions
virtual bool BLoggedOn() = 0;
virtual bool BSecure() = 0;
virtual CSteamID GetSteamID() = 0;
// Handles receiving a new connection from a Steam user. This call will ask the Steam
// servers to validate the users identity, app ownership, and VAC status. If the Steam servers
// are off-line, then it will validate the cached ticket itself which will validate app ownership
// and identity. The AuthBlob here should be acquired on the game client using SteamUser()->InitiateGameConnection()
// and must then be sent up to the game server for authentication.
//
// Return Value: returns true if the users ticket passes basic checks. pSteamIDUser will contain the Steam ID of this user. pSteamIDUser must NOT be NULL
// If the call succeeds then you should expect a GSClientApprove_t or GSClientDeny_t callback which will tell you whether authentication
// for the user has succeeded or failed (the steamid in the callback will match the one returned by this call)
virtual bool SendUserConnectAndAuthenticate( uint32 unIPClient, const void *pvAuthBlob, uint32 cubAuthBlobSize, CSteamID *pSteamIDUser ) = 0;
// Creates a fake user (ie, a bot) which will be listed as playing on the server, but skips validation.
//
// Return Value: Returns a SteamID for the user to be tracked with, you should call HandleUserDisconnect()
// when this user leaves the server just like you would for a real user.
virtual CSteamID CreateUnauthenticatedUserConnection() = 0;
// Should be called whenever a user leaves our game server, this lets Steam internally
// track which users are currently on which servers for the purposes of preventing a single
// account being logged into multiple servers, showing who is currently on a server, etc.
virtual void SendUserDisconnect( CSteamID steamIDUser ) = 0;
// Update the data to be displayed in the server browser and matchmaking interfaces for a user
// currently connected to the server. For regular users you must call this after you receive a
// GSUserValidationSuccess callback.
//
// Return Value: true if successful, false if failure (ie, steamIDUser wasn't for an active player)
virtual bool BUpdateUserData( CSteamID steamIDUser, const char *pchPlayerName, uint32 uScore ) = 0;
// You shouldn't need to call this as it is called internally by SteamGameServer_Init() and can only be called once.
//
// To update the data in this call which may change during the servers lifetime see UpdateServerStatus() below.
//
// Input: nGameAppID - The Steam assigned AppID for the game
// unServerFlags - Any applicable combination of flags (see k_unServerFlag____ constants below)
// unGameIP - The IP Address the server is listening for client connections on (might be INADDR_ANY)
// unGamePort - The port which the server is listening for client connections on
// unSpectatorPort - the port on which spectators can join to observe the server, 0 if spectating is not supported
// usQueryPort - The port which the ISteamMasterServerUpdater API should use in order to listen for matchmaking requests
// pchGameDir - A unique string identifier for your game
// pchVersion - The current version of the server as a string like 1.0.0.0
// bLanMode - Is this a LAN only server?
//
// bugbug jmccaskey - figure out how to remove this from the API and only expose via SteamGameServer_Init... or make this actually used,
// and stop calling it in SteamGameServer_Init()?
virtual bool BSetServerType( uint32 unServerFlags, uint32 unGameIP, uint16 unGamePort,
uint16 unSpectatorPort, uint16 usQueryPort, const char *pchGameDir, const char *pchVersion, bool bLANMode ) = 0;
// Updates server status values which shows up in the server browser and matchmaking APIs
virtual void UpdateServerStatus( int cPlayers, int cPlayersMax, int cBotPlayers,
const char *pchServerName, const char *pSpectatorServerName,
const char *pchMapName ) = 0;
// This can be called if spectator goes away or comes back (passing 0 means there is no spectator server now).
virtual void UpdateSpectatorPort( uint16 unSpectatorPort ) = 0;
// Sets a string defining the "gametags" for this server, this is optional, but if it is set
// it allows users to filter in the matchmaking/server-browser interfaces based on the value
virtual void SetGameTags( const char *pchGameTags ) = 0;
// Ask for the gameplay stats for the server. Results returned in a callback
virtual void GetGameplayStats( ) = 0;
// Gets the reputation score for the game server. This API also checks if the server or some
// other server on the same IP is banned from the Steam master servers.
virtual SteamAPICall_t GetServerReputation( ) = 0;
// Ask if a user in in the specified group, results returns async by GSUserGroupStatus_t
// returns false if we're not connected to the steam servers and thus cannot ask
virtual bool RequestUserGroupStatus( CSteamID steamIDUser, CSteamID steamIDGroup ) = 0;
// Returns the public IP of the server according to Steam, useful when the server is
// behind NAT and you want to advertise its IP in a lobby for other clients to directly
// connect to
virtual uint32 GetPublicIP() = 0;
// Sets a string defining the "gamedata" for this server, this is optional, but if it is set
// it allows users to filter in the matchmaking/server-browser interfaces based on the value
// don't set this unless it actually changes, its only uploaded to the master once (when
// acknowledged)
virtual void SetGameData( const char *pchGameData) = 0;
// After receiving a user's authentication data, and passing it to SendUserConnectAndAuthenticate, use this function
// to determine if the user owns downloadable content specified by the provided AppID.
virtual EUserHasLicenseForAppResult UserHasLicenseForApp( CSteamID steamID, AppId_t appID ) = 0;
// New auth system APIs - do not mix with the old auth system APIs.
// ----------------------------------------------------------------
// Retrieve ticket to be sent to the entity who wishes to authenticate you ( using BeginAuthSession API ).
// pcbTicket retrieves the length of the actual ticket.
virtual HAuthTicket GetAuthSessionTicket( void *pTicket, int cbMaxTicket, uint32 *pcbTicket ) = 0;
// Authenticate ticket ( from GetAuthSessionTicket ) from entity steamID to be sure it is valid and isnt reused
// Registers for callbacks if the entity goes offline or cancels the ticket ( see ValidateAuthTicketResponse_t callback and EAuthSessionResponse )
virtual EBeginAuthSessionResult BeginAuthSession( const void *pAuthTicket, int cbAuthTicket, CSteamID steamID ) = 0;
// Stop tracking started by BeginAuthSession - called when no longer playing game with this entity
virtual void EndAuthSession( CSteamID steamID ) = 0;
// Cancel auth ticket from GetAuthSessionTicket, called when no longer playing game with the entity you gave the ticket to
virtual void CancelAuthTicket( HAuthTicket hAuthTicket ) = 0;
};
#define STEAMGAMESERVER_INTERFACE_VERSION "SteamGameServer010"
// game server flags
const uint32 k_unServerFlagNone = 0x00;
const uint32 k_unServerFlagActive = 0x01; // server has users playing
const uint32 k_unServerFlagSecure = 0x02; // server wants to be secure
const uint32 k_unServerFlagDedicated = 0x04; // server is dedicated
const uint32 k_unServerFlagLinux = 0x08; // linux build
const uint32 k_unServerFlagPassworded = 0x10; // password protected
const uint32 k_unServerFlagPrivate = 0x20; // server shouldn't list on master server and
// won't enforce authentication of users that connect to the server.
// Useful when you run a server where the clients may not
// be connected to the internet but you want them to play (i.e LANs)
// callbacks
#pragma pack( push, 8 )
// client has been approved to connect to this game server
struct GSClientApprove_t
{
enum { k_iCallback = k_iSteamGameServerCallbacks + 1 };
CSteamID m_SteamID;
};
// client has been denied to connection to this game server
struct GSClientDeny_t
{
enum { k_iCallback = k_iSteamGameServerCallbacks + 2 };
CSteamID m_SteamID;
EDenyReason m_eDenyReason;
char m_rgchOptionalText[128];
};
// request the game server should kick the user
struct GSClientKick_t
{
enum { k_iCallback = k_iSteamGameServerCallbacks + 3 };
CSteamID m_SteamID;
EDenyReason m_eDenyReason;
};
// NOTE: callback values 4 and 5 are skipped because they are used for old deprecated callbacks,
// do not reuse them here.
// client achievement info
struct GSClientAchievementStatus_t
{
enum { k_iCallback = k_iSteamGameServerCallbacks + 6 };
uint64 m_SteamID;
char m_pchAchievement[128];
bool m_bUnlocked;
};
// received when the game server requests to be displayed as secure (VAC protected)
// m_bSecure is true if the game server should display itself as secure to users, false otherwise
struct GSPolicyResponse_t
{
enum { k_iCallback = k_iSteamUserCallbacks + 15 };
uint8 m_bSecure;
};
// GS gameplay stats info
struct GSGameplayStats_t
{
enum { k_iCallback = k_iSteamGameServerCallbacks + 7 };
EResult m_eResult; // Result of the call
int32 m_nRank; // Overall rank of the server (0-based)
uint32 m_unTotalConnects; // Total number of clients who have ever connected to the server
uint32 m_unTotalMinutesPlayed; // Total number of minutes ever played on the server
};
// send as a reply to RequestUserGroupStatus()
struct GSClientGroupStatus_t
{
enum { k_iCallback = k_iSteamGameServerCallbacks + 8 };
CSteamID m_SteamIDUser;
CSteamID m_SteamIDGroup;
bool m_bMember;
bool m_bOfficer;
};
// Sent as a reply to GetServerReputation()
struct GSReputation_t
{
enum { k_iCallback = k_iSteamGameServerCallbacks + 9 };
EResult m_eResult; // Result of the call;
uint32 m_unReputationScore; // The reputation score for the game server
bool m_bBanned; // True if the server is banned from the Steam
// master servers
// The following members are only filled out if m_bBanned is true. They will all
// be set to zero otherwise. Master server bans are by IP so it is possible to be
// banned even when the score is good high if there is a bad server on another port.
// This information can be used to determine which server is bad.
uint32 m_unBannedIP; // The IP of the banned server
uint16 m_usBannedPort; // The port of the banned server
uint64 m_ulBannedGameID; // The game ID the banned server is serving
uint32 m_unBanExpires; // Time the ban expires, expressed in the Unix epoch (seconds since 1/1/1970)
};
#pragma pack( pop )
#endif // ISTEAMGAMESERVER_H

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//====== Copyright © Valve Corporation, All rights reserved. =======
//
// Purpose: interface for game servers to steam stats and achievements
//
//=============================================================================
#ifndef ISTEAMGAMESERVERSTATS_H
#define ISTEAMGAMESERVERSTATS_H
#ifdef _WIN32
#pragma once
#endif
#include "isteamclient.h"
//-----------------------------------------------------------------------------
// Purpose: Functions for authenticating users via Steam to play on a game server
//-----------------------------------------------------------------------------
class ISteamGameServerStats
{
public:
// downloads stats for the user
// returns a GSStatsReceived_t callback when completed
// if the user has no stats, GSStatsReceived_t.m_eResult will be set to k_EResultFail
// these stats will only be auto-updated for clients playing on the server. For other
// users you'll need to call RequestUserStats() again to refresh any data
virtual SteamAPICall_t RequestUserStats( CSteamID steamIDUser ) = 0;
// requests stat information for a user, usable after a successful call to RequestUserStats()
virtual bool GetUserStat( CSteamID steamIDUser, const char *pchName, int32 *pData ) = 0;
virtual bool GetUserStat( CSteamID steamIDUser, const char *pchName, float *pData ) = 0;
virtual bool GetUserAchievement( CSteamID steamIDUser, const char *pchName, bool *pbAchieved ) = 0;
// Set / update stats and achievements.
// Note: These updates will work only on stats game servers are allowed to edit and only for
// game servers that have been declared as officially controlled by the game creators.
// Set the IP range of your official servers on the Steamworks page
virtual bool SetUserStat( CSteamID steamIDUser, const char *pchName, int32 nData ) = 0;
virtual bool SetUserStat( CSteamID steamIDUser, const char *pchName, float fData ) = 0;
virtual bool UpdateUserAvgRateStat( CSteamID steamIDUser, const char *pchName, float flCountThisSession, double dSessionLength ) = 0;
virtual bool SetUserAchievement( CSteamID steamIDUser, const char *pchName ) = 0;
virtual bool ClearUserAchievement( CSteamID steamIDUser, const char *pchName ) = 0;
// Store the current data on the server, will get a GSStatsStored_t callback when set.
//
// If the callback has a result of k_EResultInvalidParam, one or more stats
// uploaded has been rejected, either because they broke constraints
// or were out of date. In this case the server sends back updated values.
// The stats should be re-iterated to keep in sync.
virtual SteamAPICall_t StoreUserStats( CSteamID steamIDUser ) = 0;
};
#define STEAMGAMESERVERSTATS_INTERFACE_VERSION "SteamGameServerStats001"
// callbacks
#pragma pack( push, 8 )
//-----------------------------------------------------------------------------
// Purpose: called when the latests stats and achievements have been received
// from the server
//-----------------------------------------------------------------------------
struct GSStatsReceived_t
{
enum { k_iCallback = k_iSteamGameServerStatsCallbacks };
EResult m_eResult; // Success / error fetching the stats
CSteamID m_steamIDUser; // The user for whom the stats are retrieved for
};
//-----------------------------------------------------------------------------
// Purpose: result of a request to store the user stats for a game
//-----------------------------------------------------------------------------
struct GSStatsStored_t
{
enum { k_iCallback = k_iSteamGameServerStatsCallbacks + 1 };
EResult m_eResult; // success / error
CSteamID m_steamIDUser; // The user for whom the stats were stored
};
//-----------------------------------------------------------------------------
// Purpose: Callback indicating that a user's stats have been unloaded.
// Call RequestUserStats again to access stats for this user
//-----------------------------------------------------------------------------
struct GSStatsUnloaded_t
{
enum { k_iCallback = k_iSteamUserStatsCallbacks + 8 };
CSteamID m_steamIDUser; // User whose stats have been unloaded
};
#pragma pack( pop )
#endif // ISTEAMGAMESERVERSTATS_H

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//====== Copyright © 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose: interface to steam for game play statistics
//
//=============================================================================
#ifndef ISTEAMGAMESTATS_H
#define ISTEAMGAMESTATS_H
#ifdef _WIN32
#pragma once
#endif
//-----------------------------------------------------------------------------
// Purpose: Functions for recording game play sessions and details thereof
//-----------------------------------------------------------------------------
class ISteamGameStats
{
public:
virtual SteamAPICall_t GetNewSession( int8 nAccountType, uint64 ulAccountID, int32 nAppID, RTime32 rtTimeStarted ) = 0;
virtual SteamAPICall_t EndSession( uint64 ulSessionID, RTime32 rtTimeEnded, int nReasonCode ) = 0;
virtual EResult AddSessionAttributeInt( uint64 ulSessionID, const char* pstrName, int32 nData ) = 0;
virtual EResult AddSessionAttributeString( uint64 ulSessionID, const char* pstrName, const char *pstrData ) = 0;
virtual EResult AddSessionAttributeFloat( uint64 ulSessionID, const char* pstrName, float fData ) = 0;
virtual EResult AddNewRow( uint64 *pulRowID, uint64 ulSessionID, const char *pstrTableName ) = 0;
virtual EResult CommitRow( uint64 ulRowID ) = 0;
virtual EResult CommitOutstandingRows( uint64 ulSessionID ) = 0;
virtual EResult AddRowAttributeInt( uint64 ulRowID, const char *pstrName, int32 nData ) = 0;
virtual EResult AddRowAtributeString( uint64 ulRowID, const char *pstrName, const char *pstrData ) = 0;
virtual EResult AddRowAttributeFloat( uint64 ulRowID, const char *pstrName, float fData ) = 0;
virtual EResult AddSessionAttributeInt64( uint64 ulSessionID, const char *pstrName, int64 llData ) = 0;
virtual EResult AddRowAttributeInt64( uint64 ulRowID, const char *pstrName, int64 llData ) = 0;
};
#define STEAMGAMESTATS_INTERFACE_VERSION "SteamGameStats001"
//-----------------------------------------------------------------------------
// Purpose: nAccountType for GetNewSession
//-----------------------------------------------------------------------------
enum EGameStatsAccountType
{
k_EGameStatsAccountType_Steam = 1, // ullAccountID is a 64-bit SteamID for a player
k_EGameStatsAccountType_Xbox = 2, // ullAccountID is a 64-bit XUID
k_EGameStatsAccountType_SteamGameServer = 3, // ullAccountID is a 64-bit SteamID for a game server
};
//-----------------------------------------------------------------------------
// Purpose: callback for GetNewSession() method
//-----------------------------------------------------------------------------
struct GameStatsSessionIssued_t
{
enum { k_iCallback = k_iSteamGameStatsCallbacks + 1 };
uint64 m_ulSessionID;
EResult m_eResult;
bool m_bCollectingAny;
bool m_bCollectingDetails;
};
//-----------------------------------------------------------------------------
// Purpose: callback for EndSession() method
//-----------------------------------------------------------------------------
struct GameStatsSessionClosed_t
{
enum { k_iCallback = k_iSteamGameStatsCallbacks + 2 };
uint64 m_ulSessionID;
EResult m_eResult;
};
#endif // ISTEAMGAMESTATS_H

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//====== Copyright © 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose: interface to steam for retrieving list of game servers
//
//=============================================================================
#ifndef ISTEAMMASTERSERVERUPDATER_H
#define ISTEAMMASTERSERVERUPDATER_H
#ifdef _WIN32
#pragma once
#endif
#include "isteamclient.h"
#define MASTERSERVERUPDATERPORT_USEGAMESOCKETSHARE ((uint16)-1)
//-----------------------------------------------------------------------------
// Purpose: Game engines use this to tell the Steam master servers
// about their games so their games can show up in the server browser.
//-----------------------------------------------------------------------------
class ISteamMasterServerUpdater
{
public:
// Call this as often as you like to tell the master server updater whether or not
// you want it to be active (default: off).
virtual void SetActive( bool bActive ) = 0;
// You usually don't need to modify this.
// Pass -1 to use the default value for iHeartbeatInterval.
// Some mods change this.
virtual void SetHeartbeatInterval( int iHeartbeatInterval ) = 0;
// These are in GameSocketShare mode, where instead of ISteamMasterServerUpdater creating its own
// socket to talk to the master server on, it lets the game use its socket to forward messages
// back and forth. This prevents us from requiring server ops to open up yet another port
// in their firewalls.
//
// the IP address and port should be in host order, i.e 127.0.0.1 == 0x7f000001
// These are used when you've elected to multiplex the game server's UDP socket
// rather than having the master server updater use its own sockets.
//
// Source games use this to simplify the job of the server admins, so they
// don't have to open up more ports on their firewalls.
// Call this when a packet that starts with 0xFFFFFFFF comes in. That means
// it's for us.
virtual bool HandleIncomingPacket( const void *pData, int cbData, uint32 srcIP, uint16 srcPort ) = 0;
// AFTER calling HandleIncomingPacket for any packets that came in that frame, call this.
// This gets a packet that the master server updater needs to send out on UDP.
// It returns the length of the packet it wants to send, or 0 if there are no more packets to send.
// Call this each frame until it returns 0.
virtual int GetNextOutgoingPacket( void *pOut, int cbMaxOut, uint32 *pNetAdr, uint16 *pPort ) = 0;
// Functions to set various fields that are used to respond to queries.
// Call this to set basic data that is passed to the server browser.
virtual void SetBasicServerData(
unsigned short nProtocolVersion,
bool bDedicatedServer,
const char *pRegionName,
const char *pProductName,
unsigned short nMaxReportedClients,
bool bPasswordProtected,
const char *pGameDescription ) = 0;
// Call this to clear the whole list of key/values that are sent in rules queries.
virtual void ClearAllKeyValues() = 0;
// Call this to add/update a key/value pair.
virtual void SetKeyValue( const char *pKey, const char *pValue ) = 0;
// You can call this upon shutdown to clear out data stored for this game server and
// to tell the master servers that this server is going away.
virtual void NotifyShutdown() = 0;
// Returns true if the master server has requested a restart.
// Only returns true once per request.
virtual bool WasRestartRequested() = 0;
// Force it to request a heartbeat from the master servers.
virtual void ForceHeartbeat() = 0;
// Manually edit and query the master server list.
// It will provide name resolution and use the default master server port if none is provided.
virtual bool AddMasterServer( const char *pServerAddress ) = 0;
virtual bool RemoveMasterServer( const char *pServerAddress ) = 0;
virtual int GetNumMasterServers() = 0;
// Returns the # of bytes written to pOut.
virtual int GetMasterServerAddress( int iServer, char *pOut, int outBufferSize ) = 0;
};
#define STEAMMASTERSERVERUPDATER_INTERFACE_VERSION "SteamMasterServerUpdater001"
#endif // ISTEAMMASTERSERVERUPDATER_H

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//====== Copyright © 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose: interface to steam managing game server/client match making
//
//=============================================================================
#ifndef ISTEAMMATCHMAKING
#define ISTEAMMATCHMAKING
#ifdef _WIN32
#pragma once
#endif
#include "steamtypes.h"
#include "steamclientpublic.h"
#include "matchmakingtypes.h"
#include "isteamclient.h"
#include "isteamfriends.h"
// lobby type description
enum ELobbyType
{
k_ELobbyTypePrivate = 0, // only way to join the lobby is to invite to someone else
k_ELobbyTypeFriendsOnly = 1, // shows for friends or invitees, but not in lobby list
k_ELobbyTypePublic = 2, // visible for friends and in lobby list
k_ELobbyTypeInvisible = 3, // returned by search, but not visible to other friends
// useful if you want a user in two lobbies, for example matching groups together
// a user can be in only one regular lobby, and up to two invisible lobbies
};
// lobby search filter tools
enum ELobbyComparison
{
k_ELobbyComparisonEqualToOrLessThan = -2,
k_ELobbyComparisonLessThan = -1,
k_ELobbyComparisonEqual = 0,
k_ELobbyComparisonGreaterThan = 1,
k_ELobbyComparisonEqualToOrGreaterThan = 2,
k_ELobbyComparisonNotEqual = 3,
};
// lobby search distance
enum ELobbyDistanceFilter
{
k_ELobbyDistanceFilterClose, // only lobbies in the same immediate region will be returned
k_ELobbyDistanceFilterDefault, // only lobbies in the same region or close, but looking further if the current region has infrequent lobby activity (the default)
k_ELobbyDistanceFilterFar, // for games that don't have many latency requirements, will return lobbies about half-way around the globe
k_ELobbyDistanceFilterWorldwide, // no filtering, will match lobbies as far as India to NY (not recommended, expect multiple seconds of latency between the clients)
};
// maximum number of characters a lobby metadata key can be
#define k_nMaxLobbyKeyLength 255
//-----------------------------------------------------------------------------
// Purpose: Functions for match making services for clients to get to favorites
// and to operate on game lobbies.
//-----------------------------------------------------------------------------
class ISteamMatchmaking
{
public:
// game server favorites storage
// saves basic details about a multiplayer game server locally
// returns the number of favorites servers the user has stored
virtual int GetFavoriteGameCount() = 0;
// returns the details of the game server
// iGame is of range [0,GetFavoriteGameCount())
// *pnIP, *pnConnPort are filled in the with IP:port of the game server
// *punFlags specify whether the game server was stored as an explicit favorite or in the history of connections
// *pRTime32LastPlayedOnServer is filled in the with the Unix time the favorite was added
virtual bool GetFavoriteGame( int iGame, AppId_t *pnAppID, uint32 *pnIP, uint16 *pnConnPort, uint16 *pnQueryPort, uint32 *punFlags, uint32 *pRTime32LastPlayedOnServer ) = 0;
// adds the game server to the local list; updates the time played of the server if it already exists in the list
virtual int AddFavoriteGame( AppId_t nAppID, uint32 nIP, uint16 nConnPort, uint16 nQueryPort, uint32 unFlags, uint32 rTime32LastPlayedOnServer ) =0;
// removes the game server from the local storage; returns true if one was removed
virtual bool RemoveFavoriteGame( AppId_t nAppID, uint32 nIP, uint16 nConnPort, uint16 nQueryPort, uint32 unFlags ) = 0;
///////
// Game lobby functions
// Get a list of relevant lobbies
// this is an asynchronous request
// results will be returned by LobbyMatchList_t callback & call result, with the number of lobbies found
// this will never return lobbies that are full
// to add more filter, the filter calls below need to be call before each and every RequestLobbyList() call
// use the CCallResult<> object in steam_api.h to match the SteamAPICall_t call result to a function in an object, e.g.
/*
class CMyLobbyListManager
{
CCallResult<CMyLobbyListManager, LobbyMatchList_t> m_CallResultLobbyMatchList;
void FindLobbies()
{
// SteamMatchmaking()->AddRequestLobbyListFilter*() functions would be called here, before RequestLobbyList()
SteamAPICall_t hSteamAPICall = SteamMatchmaking()->RequestLobbyList();
m_CallResultLobbyMatchList.Set( hSteamAPICall, this, &CMyLobbyListManager::OnLobbyMatchList );
}
void OnLobbyMatchList( LobbyMatchList_t *pLobbyMatchList, bool bIOFailure )
{
// lobby list has be retrieved from Steam back-end, use results
}
}
*/
//
virtual SteamAPICall_t RequestLobbyList() = 0;
// filters for lobbies
// this needs to be called before RequestLobbyList() to take effect
// these are cleared on each call to RequestLobbyList()
virtual void AddRequestLobbyListStringFilter( const char *pchKeyToMatch, const char *pchValueToMatch, ELobbyComparison eComparisonType ) = 0;
// numerical comparison
virtual void AddRequestLobbyListNumericalFilter( const char *pchKeyToMatch, int nValueToMatch, ELobbyComparison eComparisonType ) = 0;
// returns results closest to the specified value. Multiple near filters can be added, with early filters taking precedence
virtual void AddRequestLobbyListNearValueFilter( const char *pchKeyToMatch, int nValueToBeCloseTo ) = 0;
// returns only lobbies with the specified number of slots available
virtual void AddRequestLobbyListFilterSlotsAvailable( int nSlotsAvailable ) = 0;
// sets the distance for which we should search for lobbies (based on users IP address to location map on the Steam backed)
virtual void AddRequestLobbyListDistanceFilter( ELobbyDistanceFilter eLobbyDistanceFilter ) = 0;
// sets how many results to return, the lower the count the faster it is to download the lobby results & details to the client
virtual void AddRequestLobbyListResultCountFilter( int cMaxResults ) = 0;
// returns the CSteamID of a lobby, as retrieved by a RequestLobbyList call
// should only be called after a LobbyMatchList_t callback is received
// iLobby is of the range [0, LobbyMatchList_t::m_nLobbiesMatching)
// the returned CSteamID::IsValid() will be false if iLobby is out of range
virtual CSteamID GetLobbyByIndex( int iLobby ) = 0;
// Create a lobby on the Steam servers.
// If private, then the lobby will not be returned by any RequestLobbyList() call; the CSteamID
// of the lobby will need to be communicated via game channels or via InviteUserToLobby()
// this is an asynchronous request
// results will be returned by LobbyCreated_t callback and call result; lobby is joined & ready to use at this pointer
// a LobbyEnter_t callback will also be received (since the local user is joining their own lobby)
virtual SteamAPICall_t CreateLobby( ELobbyType eLobbyType, int cMaxMembers ) = 0;
// Joins an existing lobby
// this is an asynchronous request
// results will be returned by LobbyEnter_t callback & call result, check m_EChatRoomEnterResponse to see if was successful
// lobby metadata is available to use immediately on this call completing
virtual SteamAPICall_t JoinLobby( CSteamID steamIDLobby ) = 0;
// Leave a lobby; this will take effect immediately on the client side
// other users in the lobby will be notified by a LobbyChatUpdate_t callback
virtual void LeaveLobby( CSteamID steamIDLobby ) = 0;
// Invite another user to the lobby
// the target user will receive a LobbyInvite_t callback
// will return true if the invite is successfully sent, whether or not the target responds
// returns false if the local user is not connected to the Steam servers
// if the other user clicks the join link, a GameLobbyJoinRequested_t will be posted if the user is in-game,
// or if the game isn't running yet the game will be launched with the parameter +connect_lobby <64-bit lobby id>
virtual bool InviteUserToLobby( CSteamID steamIDLobby, CSteamID steamIDInvitee ) = 0;
// Lobby iteration, for viewing details of users in a lobby
// only accessible if the lobby user is a member of the specified lobby
// persona information for other lobby members (name, avatar, etc.) will be asynchronously received
// and accessible via ISteamFriends interface
// returns the number of users in the specified lobby
virtual int GetNumLobbyMembers( CSteamID steamIDLobby ) = 0;
// returns the CSteamID of a user in the lobby
// iMember is of range [0,GetNumLobbyMembers())
virtual CSteamID GetLobbyMemberByIndex( CSteamID steamIDLobby, int iMember ) = 0;
// Get data associated with this lobby
// takes a simple key, and returns the string associated with it
// "" will be returned if no value is set, or if steamIDLobby is invalid
virtual const char *GetLobbyData( CSteamID steamIDLobby, const char *pchKey ) = 0;
// Sets a key/value pair in the lobby metadata
// each user in the lobby will be broadcast this new value, and any new users joining will receive any existing data
// this can be used to set lobby names, map, etc.
// to reset a key, just set it to ""
// other users in the lobby will receive notification of the lobby data change via a LobbyDataUpdate_t callback
virtual bool SetLobbyData( CSteamID steamIDLobby, const char *pchKey, const char *pchValue ) = 0;
// returns the number of metadata keys set on the specified lobby
virtual int GetLobbyDataCount( CSteamID steamIDLobby ) = 0;
// returns a lobby metadata key/values pair by index, of range [0, GetLobbyDataCount())
virtual bool GetLobbyDataByIndex( CSteamID steamIDLobby, int iLobbyData, char *pchKey, int cchKeyBufferSize, char *pchValue, int cchValueBufferSize ) = 0;
// removes a metadata key from the lobby
virtual bool DeleteLobbyData( CSteamID steamIDLobby, const char *pchKey ) = 0;
// Gets per-user metadata for someone in this lobby
virtual const char *GetLobbyMemberData( CSteamID steamIDLobby, CSteamID steamIDUser, const char *pchKey ) = 0;
// Sets per-user metadata (for the local user implicitly)
virtual void SetLobbyMemberData( CSteamID steamIDLobby, const char *pchKey, const char *pchValue ) = 0;
// Broadcasts a chat message to the all the users in the lobby
// users in the lobby (including the local user) will receive a LobbyChatMsg_t callback
// returns true if the message is successfully sent
// pvMsgBody can be binary or text data, up to 4k
// if pvMsgBody is text, cubMsgBody should be strlen( text ) + 1, to include the null terminator
virtual bool SendLobbyChatMsg( CSteamID steamIDLobby, const void *pvMsgBody, int cubMsgBody ) = 0;
// Get a chat message as specified in a LobbyChatMsg_t callback
// iChatID is the LobbyChatMsg_t::m_iChatID value in the callback
// *pSteamIDUser is filled in with the CSteamID of the member
// *pvData is filled in with the message itself
// return value is the number of bytes written into the buffer
virtual int GetLobbyChatEntry( CSteamID steamIDLobby, int iChatID, CSteamID *pSteamIDUser, void *pvData, int cubData, EChatEntryType *peChatEntryType ) = 0;
// Refreshes metadata for a lobby you're not necessarily in right now
// you never do this for lobbies you're a member of, only if your
// this will send down all the metadata associated with a lobby
// this is an asynchronous call
// returns false if the local user is not connected to the Steam servers
// results will be returned by a LobbyDataUpdate_t callback
// if the specified lobby doesn't exist, LobbyDataUpdate_t::m_bSuccess will be set to false
virtual bool RequestLobbyData( CSteamID steamIDLobby ) = 0;
// sets the game server associated with the lobby
// usually at this point, the users will join the specified game server
// either the IP/Port or the steamID of the game server has to be valid, depending on how you want the clients to be able to connect
virtual void SetLobbyGameServer( CSteamID steamIDLobby, uint32 unGameServerIP, uint16 unGameServerPort, CSteamID steamIDGameServer ) = 0;
// returns the details of a game server set in a lobby - returns false if there is no game server set, or that lobby doesn't exist
virtual bool GetLobbyGameServer( CSteamID steamIDLobby, uint32 *punGameServerIP, uint16 *punGameServerPort, CSteamID *psteamIDGameServer ) = 0;
// set the limit on the # of users who can join the lobby
virtual bool SetLobbyMemberLimit( CSteamID steamIDLobby, int cMaxMembers ) = 0;
// returns the current limit on the # of users who can join the lobby; returns 0 if no limit is defined
virtual int GetLobbyMemberLimit( CSteamID steamIDLobby ) = 0;
// updates which type of lobby it is
// only lobbies that are k_ELobbyTypePublic or k_ELobbyTypeInvisible, and are set to joinable, will be returned by RequestLobbyList() calls
virtual bool SetLobbyType( CSteamID steamIDLobby, ELobbyType eLobbyType ) = 0;
// sets whether or not a lobby is joinable - defaults to true for a new lobby
// if set to false, no user can join, even if they are a friend or have been invited
virtual bool SetLobbyJoinable( CSteamID steamIDLobby, bool bLobbyJoinable ) = 0;
// returns the current lobby owner
// you must be a member of the lobby to access this
// there always one lobby owner - if the current owner leaves, another user will become the owner
// it is possible (bur rare) to join a lobby just as the owner is leaving, thus entering a lobby with self as the owner
virtual CSteamID GetLobbyOwner( CSteamID steamIDLobby ) = 0;
// changes who the lobby owner is
// you must be the lobby owner for this to succeed, and steamIDNewOwner must be in the lobby
// after completion, the local user will no longer be the owner
virtual bool SetLobbyOwner( CSteamID steamIDLobby, CSteamID steamIDNewOwner ) = 0;
};
#define STEAMMATCHMAKING_INTERFACE_VERSION "SteamMatchMaking008"
//-----------------------------------------------------------------------------
// Callback interfaces for server list functions (see ISteamMatchmakingServers below)
//
// The idea here is that your game code implements objects that implement these
// interfaces to receive callback notifications after calling asynchronous functions
// inside the ISteamMatchmakingServers() interface below.
//
// This is different than normal Steam callback handling due to the potentially
// large size of server lists.
//-----------------------------------------------------------------------------
//-----------------------------------------------------------------------------
// Typedef for handle type you will receive when requesting server list.
//-----------------------------------------------------------------------------
typedef void* HServerListRequest;
//-----------------------------------------------------------------------------
// Purpose: Callback interface for receiving responses after a server list refresh
// or an individual server update.
//
// Since you get these callbacks after requesting full list refreshes you will
// usually implement this interface inside an object like CServerBrowser. If that
// object is getting destructed you should use ISteamMatchMakingServers()->CancelQuery()
// to cancel any in-progress queries so you don't get a callback into the destructed
// object and crash.
//-----------------------------------------------------------------------------
class ISteamMatchmakingServerListResponse
{
public:
// Server has responded ok with updated data
virtual void ServerResponded( HServerListRequest hRequest, int iServer ) = 0;
// Server has failed to respond
virtual void ServerFailedToRespond( HServerListRequest hRequest, int iServer ) = 0;
// A list refresh you had initiated is now 100% completed
virtual void RefreshComplete( HServerListRequest hRequest, EMatchMakingServerResponse response ) = 0;
};
//-----------------------------------------------------------------------------
// Purpose: Callback interface for receiving responses after pinging an individual server
//
// These callbacks all occur in response to querying an individual server
// via the ISteamMatchmakingServers()->PingServer() call below. If you are
// destructing an object that implements this interface then you should call
// ISteamMatchmakingServers()->CancelServerQuery() passing in the handle to the query
// which is in progress. Failure to cancel in progress queries when destructing
// a callback handler may result in a crash when a callback later occurs.
//-----------------------------------------------------------------------------
class ISteamMatchmakingPingResponse
{
public:
// Server has responded successfully and has updated data
virtual void ServerResponded( gameserveritem_t &server ) = 0;
// Server failed to respond to the ping request
virtual void ServerFailedToRespond() = 0;
};
//-----------------------------------------------------------------------------
// Purpose: Callback interface for receiving responses after requesting details on
// who is playing on a particular server.
//
// These callbacks all occur in response to querying an individual server
// via the ISteamMatchmakingServers()->PlayerDetails() call below. If you are
// destructing an object that implements this interface then you should call
// ISteamMatchmakingServers()->CancelServerQuery() passing in the handle to the query
// which is in progress. Failure to cancel in progress queries when destructing
// a callback handler may result in a crash when a callback later occurs.
//-----------------------------------------------------------------------------
class ISteamMatchmakingPlayersResponse
{
public:
// Got data on a new player on the server -- you'll get this callback once per player
// on the server which you have requested player data on.
virtual void AddPlayerToList( const char *pchName, int nScore, float flTimePlayed ) = 0;
// The server failed to respond to the request for player details
virtual void PlayersFailedToRespond() = 0;
// The server has finished responding to the player details request
// (ie, you won't get anymore AddPlayerToList callbacks)
virtual void PlayersRefreshComplete() = 0;
};
//-----------------------------------------------------------------------------
// Purpose: Callback interface for receiving responses after requesting rules
// details on a particular server.
//
// These callbacks all occur in response to querying an individual server
// via the ISteamMatchmakingServers()->ServerRules() call below. If you are
// destructing an object that implements this interface then you should call
// ISteamMatchmakingServers()->CancelServerQuery() passing in the handle to the query
// which is in progress. Failure to cancel in progress queries when destructing
// a callback handler may result in a crash when a callback later occurs.
//-----------------------------------------------------------------------------
class ISteamMatchmakingRulesResponse
{
public:
// Got data on a rule on the server -- you'll get one of these per rule defined on
// the server you are querying
virtual void RulesResponded( const char *pchRule, const char *pchValue ) = 0;
// The server failed to respond to the request for rule details
virtual void RulesFailedToRespond() = 0;
// The server has finished responding to the rule details request
// (ie, you won't get anymore RulesResponded callbacks)
virtual void RulesRefreshComplete() = 0;
};
//-----------------------------------------------------------------------------
// Typedef for handle type you will receive when querying details on an individual server.
//-----------------------------------------------------------------------------
typedef int HServerQuery;
const int HSERVERQUERY_INVALID = 0xffffffff;
//-----------------------------------------------------------------------------
// Purpose: Functions for match making services for clients to get to game lists and details
//-----------------------------------------------------------------------------
class ISteamMatchmakingServers
{
public:
// Request a new list of servers of a particular type. These calls each correspond to one of the EMatchMakingType values.
// Each call allocates a new asynchronous request object.
// Request object must be released by calling ReleaseRequest( hServerListRequest )
virtual HServerListRequest RequestInternetServerList( AppId_t iApp, MatchMakingKeyValuePair_t **ppchFilters, uint32 nFilters, ISteamMatchmakingServerListResponse *pRequestServersResponse ) = 0;
virtual HServerListRequest RequestLANServerList( AppId_t iApp, ISteamMatchmakingServerListResponse *pRequestServersResponse ) = 0;
virtual HServerListRequest RequestFriendsServerList( AppId_t iApp, MatchMakingKeyValuePair_t **ppchFilters, uint32 nFilters, ISteamMatchmakingServerListResponse *pRequestServersResponse ) = 0;
virtual HServerListRequest RequestFavoritesServerList( AppId_t iApp, MatchMakingKeyValuePair_t **ppchFilters, uint32 nFilters, ISteamMatchmakingServerListResponse *pRequestServersResponse ) = 0;
virtual HServerListRequest RequestHistoryServerList( AppId_t iApp, MatchMakingKeyValuePair_t **ppchFilters, uint32 nFilters, ISteamMatchmakingServerListResponse *pRequestServersResponse ) = 0;
virtual HServerListRequest RequestSpectatorServerList( AppId_t iApp, MatchMakingKeyValuePair_t **ppchFilters, uint32 nFilters, ISteamMatchmakingServerListResponse *pRequestServersResponse ) = 0;
// Releases the asynchronous request object and cancels any pending query on it if there's a pending query in progress.
// RefreshComplete callback is not posted when request is released.
virtual void ReleaseRequest( HServerListRequest hServerListRequest ) = 0;
/* the filters that are available in the ppchFilters params are:
"map" - map the server is running, as set in the dedicated server api
"dedicated" - reports bDedicated from the API
"secure" - VAC-enabled
"full" - not full
"empty" - not empty
"noplayers" - is empty
"proxy" - a relay server
*/
// Get details on a given server in the list, you can get the valid range of index
// values by calling GetServerCount(). You will also receive index values in
// ISteamMatchmakingServerListResponse::ServerResponded() callbacks
virtual gameserveritem_t *GetServerDetails( HServerListRequest hRequest, int iServer ) = 0;
// Cancel an request which is operation on the given list type. You should call this to cancel
// any in-progress requests before destructing a callback object that may have been passed
// to one of the above list request calls. Not doing so may result in a crash when a callback
// occurs on the destructed object.
// Canceling a query does not release the allocated request handle.
// The request handle must be released using ReleaseRequest( hRequest )
virtual void CancelQuery( HServerListRequest hRequest ) = 0;
// Ping every server in your list again but don't update the list of servers
// Query callback installed when the server list was requested will be used
// again to post notifications and RefreshComplete, so the callback must remain
// valid until another RefreshComplete is called on it or the request
// is released with ReleaseRequest( hRequest )
virtual void RefreshQuery( HServerListRequest hRequest ) = 0;
// Returns true if the list is currently refreshing its server list
virtual bool IsRefreshing( HServerListRequest hRequest ) = 0;
// How many servers in the given list, GetServerDetails above takes 0... GetServerCount() - 1
virtual int GetServerCount( HServerListRequest hRequest ) = 0;
// Refresh a single server inside of a query (rather than all the servers )
virtual void RefreshServer( HServerListRequest hRequest, int iServer ) = 0;
//-----------------------------------------------------------------------------
// Queries to individual servers directly via IP/Port
//-----------------------------------------------------------------------------
// Request updated ping time and other details from a single server
virtual HServerQuery PingServer( uint32 unIP, uint16 usPort, ISteamMatchmakingPingResponse *pRequestServersResponse ) = 0;
// Request the list of players currently playing on a server
virtual HServerQuery PlayerDetails( uint32 unIP, uint16 usPort, ISteamMatchmakingPlayersResponse *pRequestServersResponse ) = 0;
// Request the list of rules that the server is running (See ISteamMasterServerUpdater->SetKeyValue() to set the rules server side)
virtual HServerQuery ServerRules( uint32 unIP, uint16 usPort, ISteamMatchmakingRulesResponse *pRequestServersResponse ) = 0;
// Cancel an outstanding Ping/Players/Rules query from above. You should call this to cancel
// any in-progress requests before destructing a callback object that may have been passed
// to one of the above calls to avoid crashing when callbacks occur.
virtual void CancelServerQuery( HServerQuery hServerQuery ) = 0;
};
#define STEAMMATCHMAKINGSERVERS_INTERFACE_VERSION "SteamMatchMakingServers002"
// game server flags
const uint32 k_unFavoriteFlagNone = 0x00;
const uint32 k_unFavoriteFlagFavorite = 0x01; // this game favorite entry is for the favorites list
const uint32 k_unFavoriteFlagHistory = 0x02; // this game favorite entry is for the history list
//-----------------------------------------------------------------------------
// Purpose: Used in ChatInfo messages - fields specific to a chat member - must fit in a uint32
//-----------------------------------------------------------------------------
enum EChatMemberStateChange
{
// Specific to joining / leaving the chatroom
k_EChatMemberStateChangeEntered = 0x0001, // This user has joined or is joining the chat room
k_EChatMemberStateChangeLeft = 0x0002, // This user has left or is leaving the chat room
k_EChatMemberStateChangeDisconnected = 0x0004, // User disconnected without leaving the chat first
k_EChatMemberStateChangeKicked = 0x0008, // User kicked
k_EChatMemberStateChangeBanned = 0x0010, // User kicked and banned
};
// returns true of the flags indicate that a user has been removed from the chat
#define BChatMemberStateChangeRemoved( rgfChatMemberStateChangeFlags ) ( rgfChatMemberStateChangeFlags & ( k_EChatMemberStateChangeDisconnected | k_EChatMemberStateChangeLeft | k_EChatMemberStateChangeKicked | k_EChatMemberStateChangeBanned ) )
//-----------------------------------------------------------------------------
// Callbacks for ISteamMatchmaking (which go through the regular Steam callback registration system)
#pragma pack( push, 8 )
//-----------------------------------------------------------------------------
// Purpose: a server was added/removed from the favorites list, you should refresh now
//-----------------------------------------------------------------------------
struct FavoritesListChanged_t
{
enum { k_iCallback = k_iSteamMatchmakingCallbacks + 2 };
uint32 m_nIP; // an IP of 0 means reload the whole list, any other value means just one server
uint32 m_nQueryPort;
uint32 m_nConnPort;
uint32 m_nAppID;
uint32 m_nFlags;
bool m_bAdd; // true if this is adding the entry, otherwise it is a remove
};
//-----------------------------------------------------------------------------
// Purpose: Someone has invited you to join a Lobby
// normally you don't need to do anything with this, since
// the Steam UI will also display a '<user> has invited you to the lobby, join?' dialog
//
// if the user outside a game chooses to join, your game will be launched with the parameter "+connect_lobby <64-bit lobby id>",
// or with the callback GameLobbyJoinRequested_t if they're already in-game
//-----------------------------------------------------------------------------
struct LobbyInvite_t
{
enum { k_iCallback = k_iSteamMatchmakingCallbacks + 3 };
uint64 m_ulSteamIDUser; // Steam ID of the person making the invite
uint64 m_ulSteamIDLobby; // Steam ID of the Lobby
};
//-----------------------------------------------------------------------------
// Purpose: Sent on entering a lobby, or on failing to enter
// m_EChatRoomEnterResponse will be set to k_EChatRoomEnterResponseSuccess on success,
// or a higher value on failure (see enum EChatRoomEnterResponse)
//-----------------------------------------------------------------------------
struct LobbyEnter_t
{
enum { k_iCallback = k_iSteamMatchmakingCallbacks + 4 };
uint64 m_ulSteamIDLobby; // SteamID of the Lobby you have entered
uint32 m_rgfChatPermissions; // Permissions of the current user
bool m_bLocked; // If true, then only invited users may join
uint32 m_EChatRoomEnterResponse; // EChatRoomEnterResponse
};
//-----------------------------------------------------------------------------
// Purpose: The lobby metadata has changed
// if m_ulSteamIDMember is the steamID of a lobby member, use GetLobbyMemberData() to access per-user details
// if m_ulSteamIDMember == m_ulSteamIDLobby, use GetLobbyData() to access lobby metadata
//-----------------------------------------------------------------------------
struct LobbyDataUpdate_t
{
enum { k_iCallback = k_iSteamMatchmakingCallbacks + 5 };
uint64 m_ulSteamIDLobby; // steamID of the Lobby
uint64 m_ulSteamIDMember; // steamID of the member whose data changed, or the room itself
uint8 m_bSuccess; // true if we lobby data was successfully changed;
// will only be false if RequestLobbyData() was called on a lobby that no longer exists
};
//-----------------------------------------------------------------------------
// Purpose: The lobby chat room state has changed
// this is usually sent when a user has joined or left the lobby
//-----------------------------------------------------------------------------
struct LobbyChatUpdate_t
{
enum { k_iCallback = k_iSteamMatchmakingCallbacks + 6 };
uint64 m_ulSteamIDLobby; // Lobby ID
uint64 m_ulSteamIDUserChanged; // user who's status in the lobby just changed - can be recipient
uint64 m_ulSteamIDMakingChange; // Chat member who made the change (different from SteamIDUserChange if kicking, muting, etc.)
// for example, if one user kicks another from the lobby, this will be set to the id of the user who initiated the kick
uint32 m_rgfChatMemberStateChange; // bitfield of EChatMemberStateChange values
};
//-----------------------------------------------------------------------------
// Purpose: A chat message for this lobby has been sent
// use GetLobbyChatEntry( m_iChatID ) to retrieve the contents of this message
//-----------------------------------------------------------------------------
struct LobbyChatMsg_t
{
enum { k_iCallback = k_iSteamMatchmakingCallbacks + 7 };
uint64 m_ulSteamIDLobby; // the lobby id this is in
uint64 m_ulSteamIDUser; // steamID of the user who has sent this message
uint8 m_eChatEntryType; // type of message
uint32 m_iChatID; // index of the chat entry to lookup
};
//-----------------------------------------------------------------------------
// Purpose: A game created a game for all the members of the lobby to join,
// as triggered by a SetLobbyGameServer()
// it's up to the individual clients to take action on this; the usual
// game behavior is to leave the lobby and connect to the specified game server
//-----------------------------------------------------------------------------
struct LobbyGameCreated_t
{
enum { k_iCallback = k_iSteamMatchmakingCallbacks + 9 };
uint64 m_ulSteamIDLobby; // the lobby we were in
uint64 m_ulSteamIDGameServer; // the new game server that has been created or found for the lobby members
uint32 m_unIP; // IP & Port of the game server (if any)
uint16 m_usPort;
};
//-----------------------------------------------------------------------------
// Purpose: Number of matching lobbies found
// iterate the returned lobbies with GetLobbyByIndex(), from values 0 to m_nLobbiesMatching-1
//-----------------------------------------------------------------------------
struct LobbyMatchList_t
{
enum { k_iCallback = k_iSteamMatchmakingCallbacks + 10 };
uint32 m_nLobbiesMatching; // Number of lobbies that matched search criteria and we have SteamIDs for
};
//-----------------------------------------------------------------------------
// Purpose: posted if a user is forcefully removed from a lobby
// can occur if a user loses connection to Steam
//-----------------------------------------------------------------------------
struct LobbyKicked_t
{
enum { k_iCallback = k_iSteamMatchmakingCallbacks + 12 };
uint64 m_ulSteamIDLobby; // Lobby
uint64 m_ulSteamIDAdmin; // User who kicked you - possibly the ID of the lobby itself
uint8 m_bKickedDueToDisconnect; // true if you were kicked from the lobby due to the user losing connection to Steam (currently always true)
};
//-----------------------------------------------------------------------------
// Purpose: Result of our request to create a Lobby
// m_eResult == k_EResultOK on success
// at this point, the local user may not have finishing joining this lobby;
// game code should wait until the subsequent LobbyEnter_t callback is received
//-----------------------------------------------------------------------------
struct LobbyCreated_t
{
enum { k_iCallback = k_iSteamMatchmakingCallbacks + 13 };
EResult m_eResult; // k_EResultOK - the lobby was successfully created
// k_EResultNoConnection - your Steam client doesn't have a connection to the back-end
// k_EResultTimeout - you the message to the Steam servers, but it didn't respond
// k_EResultFail - the server responded, but with an unknown internal error
// k_EResultAccessDenied - your game isn't set to allow lobbies, or your client does haven't rights to play the game
// k_EResultLimitExceeded - your game client has created too many lobbies
uint64 m_ulSteamIDLobby; // chat room, zero if failed
};
// used by now obsolete RequestFriendsLobbiesResponse_t
// enum { k_iCallback = k_iSteamMatchmakingCallbacks + 14 };
#pragma pack( pop )
#endif // ISTEAMMATCHMAKING

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//====== Copyright © 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose: interface to steam managing network connections between game clients & servers
//
//=============================================================================
#ifndef ISTEAMNETWORKING
#define ISTEAMNETWORKING
#ifdef _WIN32
#pragma once
#endif
#include "steamtypes.h"
#include "steamclientpublic.h"
// list of possible errors returned by SendP2PPacket() API
// these will be posted in the P2PSessionConnectFail_t callback
enum EP2PSessionError
{
k_EP2PSessionErrorNone = 0,
k_EP2PSessionErrorNotRunningApp = 1, // target is not running the same game
k_EP2PSessionErrorNoRightsToApp = 2, // local user doesn't own the app that is running
k_EP2PSessionErrorDestinationNotLoggedIn = 3, // target user isn't connected to Steam
k_EP2PSessionErrorTimeout = 4, // target isn't responding, perhaps not calling AcceptP2PSessionWithUser()
// corporate firewalls can also block this (NAT traversal is not firewall traversal)
// make sure that UDP ports 3478, 4379, and 4380 are open in an outbound direction
k_EP2PSessionErrorMax = 5
};
// SendP2PPacket() send types
// Typically k_EP2PSendUnreliable is what you want for UDP-like packets, k_EP2PSendReliable for TCP-like packets
enum EP2PSend
{
// Basic UDP send. Packets can't be bigger than 1200 bytes (your typical MTU size). Can be lost, or arrive out of order (rare).
// The sending API does have some knowledge of the underlying connection, so if there is no NAT-traversal accomplished or
// there is a recognized adjustment happening on the connection, the packet will be batched until the connection is open again.
k_EP2PSendUnreliable = 0,
// As above, but if the underlying p2p connection isn't yet established the packet will just be thrown away. Using this on the first
// packet sent to a remote host almost guarantees the packet will be dropped.
// This is only really useful for kinds of data that should never buffer up, i.e. voice payload packets
k_EP2PSendUnreliableNoDelay = 1,
// Reliable message send. Can send up to 1MB of data in a single message.
// Does fragmentation/re-assembly of messages under the hood, as well as a sliding window for efficient sends of large chunks of data.
k_EP2PSendReliable = 2,
// As above, but applies the Nagle algorithm to the send - sends will accumulate
// until the current MTU size (typically ~1200 bytes, but can change) or ~200ms has passed (Nagle algorithm).
// Useful if you want to send a set of smaller messages but have the coalesced into a single packet
// Since the reliable stream is all ordered, you can do several small message sends with k_EP2PSendReliableWithBuffering and then
// do a normal k_EP2PSendReliable to force all the buffered data to be sent.
k_EP2PSendReliableWithBuffering = 3,
};
// connection state to a specified user, returned by GetP2PSessionState()
// this is under-the-hood info about what's going on with a SendP2PPacket(), shouldn't be needed except for debuggin
#pragma pack( push, 8 )
struct P2PSessionState_t
{
uint8 m_bConnectionActive; // true if we've got an active open connection
uint8 m_bConnecting; // true if we're currently trying to establish a connection
uint8 m_eP2PSessionError; // last error recorded (see enum above)
uint8 m_bUsingRelay; // true if it's going through a relay server (TURN)
int32 m_nBytesQueuedForSend;
int32 m_nPacketsQueuedForSend;
uint32 m_nRemoteIP; // potential IP:Port of remote host. Could be TURN server.
uint16 m_nRemotePort; // Only exists for compatibility with older authentication api's
};
#pragma pack( pop )
// handle to a socket
typedef uint32 SNetSocket_t; // CreateP2PConnectionSocket()
typedef uint32 SNetListenSocket_t; // CreateListenSocket()
// connection progress indicators, used by CreateP2PConnectionSocket()
enum ESNetSocketState
{
k_ESNetSocketStateInvalid = 0,
// communication is valid
k_ESNetSocketStateConnected = 1,
// states while establishing a connection
k_ESNetSocketStateInitiated = 10, // the connection state machine has started
// p2p connections
k_ESNetSocketStateLocalCandidatesFound = 11, // we've found our local IP info
k_ESNetSocketStateReceivedRemoteCandidates = 12,// we've received information from the remote machine, via the Steam back-end, about their IP info
// direct connections
k_ESNetSocketStateChallengeHandshake = 15, // we've received a challenge packet from the server
// failure states
k_ESNetSocketStateDisconnecting = 21, // the API shut it down, and we're in the process of telling the other end
k_ESNetSocketStateLocalDisconnect = 22, // the API shut it down, and we've completed shutdown
k_ESNetSocketStateTimeoutDuringConnect = 23, // we timed out while trying to creating the connection
k_ESNetSocketStateRemoteEndDisconnected = 24, // the remote end has disconnected from us
k_ESNetSocketStateConnectionBroken = 25, // connection has been broken; either the other end has disappeared or our local network connection has broke
};
// describes how the socket is currently connected
enum ESNetSocketConnectionType
{
k_ESNetSocketConnectionTypeNotConnected = 0,
k_ESNetSocketConnectionTypeUDP = 1,
k_ESNetSocketConnectionTypeUDPRelay = 2,
};
//-----------------------------------------------------------------------------
// Purpose: Functions for making connections and sending data between clients,
// traversing NAT's where possible
//-----------------------------------------------------------------------------
class ISteamNetworking
{
public:
////////////////////////////////////////////////////////////////////////////////////////////
// Session-less connection functions
// automatically establishes NAT-traversing or Relay server connections
// Sends a P2P packet to the specified user
// UDP-like, unreliable and a max packet size of 1200 bytes
// the first packet send may be delayed as the NAT-traversal code runs
// if we can't get through to the user, an error will be posted via the callback P2PSessionConnectFail_t
// see EP2PSend enum above for the descriptions of the different ways of sending packets
// nVirtualPort is a routing number you can use to help route message to different systems - you'll have to call ReadP2PPacket()
// with the same nVirtualPort number in order to retrieve the data on the other end
// using different virtual ports to talk to the same user will still use the same underlying p2p connection, saving on resources
virtual bool SendP2PPacket( CSteamID steamIDRemote, const void *pubData, uint32 cubData, EP2PSend eP2PSendType, int nVirtualPort = 0 ) = 0;
// returns true if any data is available for read, and the amount of data that will need to be read
virtual bool IsP2PPacketAvailable( uint32 *pcubMsgSize, int nVirtualPort = 0 ) = 0;
// reads in a packet that has been sent from another user via SendP2PPacket()
// returns the size of the message and the steamID of the user who sent it in the last two parameters
// if the buffer passed in is too small, the message will be truncated
// this call is not blocking, and will return false if no data is available
virtual bool ReadP2PPacket( void *pubDest, uint32 cubDest, uint32 *pcubMsgSize, CSteamID *psteamIDRemote, int nVirtualPort = 0 ) = 0;
// AcceptP2PSessionWithUser() should only be called in response to a P2PSessionRequest_t callback
// P2PSessionRequest_t will be posted if another user tries to send you a packet that you haven't talked to yet
// if you don't want to talk to the user, just ignore the request
// if the user continues to send you packets, another P2PSessionRequest_t will be posted periodically
// this may be called multiple times for a single user
// (if you've called SendP2PPacket() on the other user, this implicitly accepts the session request)
virtual bool AcceptP2PSessionWithUser( CSteamID steamIDRemote ) = 0;
// call CloseP2PSessionWithUser() when you're done talking to a user, will free up resources under-the-hood
// if the remote user tries to send data to you again, another P2PSessionRequest_t callback will be posted
virtual bool CloseP2PSessionWithUser( CSteamID steamIDRemote ) = 0;
// fills out P2PSessionState_t structure with details about the underlying connection to the user
// should only needed for debugging purposes
// returns false if no connection exists to the specified user
virtual bool GetP2PSessionState( CSteamID steamIDRemote, P2PSessionState_t *pConnectionState ) = 0;
////////////////////////////////////////////////////////////////////////////////////////////
// LISTEN / CONNECT style interface functions
//
// This is an older set of functions designed around the Berkeley TCP sockets model
// it's preferential that you use the above P2P functions, they're more robust
// and these older functions will be removed eventually
//
////////////////////////////////////////////////////////////////////////////////////////////
// creates a socket and listens others to connect
// will trigger a SocketStatusCallback_t callback on another client connecting
// nVirtualP2PPort is the unique ID that the client will connect to, in case you have multiple ports
// this can usually just be 0 unless you want multiple sets of connections
// unIP is the local IP address to bind to
// pass in 0 if you just want the default local IP
// unPort is the port to use
// pass in 0 if you don't want users to be able to connect via IP/Port, but expect to be always peer-to-peer connections only
virtual SNetListenSocket_t CreateListenSocket( int nVirtualP2PPort, uint32 nIP, uint16 nPort, bool bAllowUseOfPacketRelay ) = 0;
// creates a socket and begin connection to a remote destination
// can connect via a known steamID (client or game server), or directly to an IP
// on success will trigger a SocketStatusCallback_t callback
// on failure or timeout will trigger a SocketStatusCallback_t callback with a failure code in m_eSNetSocketState
virtual SNetSocket_t CreateP2PConnectionSocket( CSteamID steamIDTarget, int nVirtualPort, int nTimeoutSec, bool bAllowUseOfPacketRelay ) = 0;
virtual SNetSocket_t CreateConnectionSocket( uint32 nIP, uint16 nPort, int nTimeoutSec ) = 0;
// disconnects the connection to the socket, if any, and invalidates the handle
// any unread data on the socket will be thrown away
// if bNotifyRemoteEnd is set, socket will not be completely destroyed until the remote end acknowledges the disconnect
virtual bool DestroySocket( SNetSocket_t hSocket, bool bNotifyRemoteEnd ) = 0;
// destroying a listen socket will automatically kill all the regular sockets generated from it
virtual bool DestroyListenSocket( SNetListenSocket_t hSocket, bool bNotifyRemoteEnd ) = 0;
// sending data
// must be a handle to a connected socket
// data is all sent via UDP, and thus send sizes are limited to 1200 bytes; after this, many routers will start dropping packets
// use the reliable flag with caution; although the resend rate is pretty aggressive,
// it can still cause stalls in receiving data (like TCP)
virtual bool SendDataOnSocket( SNetSocket_t hSocket, void *pubData, uint32 cubData, bool bReliable ) = 0;
// receiving data
// returns false if there is no data remaining
// fills out *pcubMsgSize with the size of the next message, in bytes
virtual bool IsDataAvailableOnSocket( SNetSocket_t hSocket, uint32 *pcubMsgSize ) = 0;
// fills in pubDest with the contents of the message
// messages are always complete, of the same size as was sent (i.e. packetized, not streaming)
// if *pcubMsgSize < cubDest, only partial data is written
// returns false if no data is available
virtual bool RetrieveDataFromSocket( SNetSocket_t hSocket, void *pubDest, uint32 cubDest, uint32 *pcubMsgSize ) = 0;
// checks for data from any socket that has been connected off this listen socket
// returns false if there is no data remaining
// fills out *pcubMsgSize with the size of the next message, in bytes
// fills out *phSocket with the socket that data is available on
virtual bool IsDataAvailable( SNetListenSocket_t hListenSocket, uint32 *pcubMsgSize, SNetSocket_t *phSocket ) = 0;
// retrieves data from any socket that has been connected off this listen socket
// fills in pubDest with the contents of the message
// messages are always complete, of the same size as was sent (i.e. packetized, not streaming)
// if *pcubMsgSize < cubDest, only partial data is written
// returns false if no data is available
// fills out *phSocket with the socket that data is available on
virtual bool RetrieveData( SNetListenSocket_t hListenSocket, void *pubDest, uint32 cubDest, uint32 *pcubMsgSize, SNetSocket_t *phSocket ) = 0;
// returns information about the specified socket, filling out the contents of the pointers
virtual bool GetSocketInfo( SNetSocket_t hSocket, CSteamID *pSteamIDRemote, int *peSocketStatus, uint32 *punIPRemote, uint16 *punPortRemote ) = 0;
// returns which local port the listen socket is bound to
// *pnIP and *pnPort will be 0 if the socket is set to listen for P2P connections only
virtual bool GetListenSocketInfo( SNetListenSocket_t hListenSocket, uint32 *pnIP, uint16 *pnPort ) = 0;
// returns true to describe how the socket ended up connecting
virtual ESNetSocketConnectionType GetSocketConnectionType( SNetSocket_t hSocket ) = 0;
// max packet size, in bytes
virtual int GetMaxPacketSize( SNetSocket_t hSocket ) = 0;
};
#define STEAMNETWORKING_INTERFACE_VERSION "SteamNetworking004"
// callbacks
#pragma pack( push, 8 )
// callback notification - a user wants to talk to us over the P2P channel via the SendP2PPacket() API
// in response, a call to AcceptP2PPacketsFromUser() needs to be made, if you want to talk with them
struct P2PSessionRequest_t
{
enum { k_iCallback = k_iSteamNetworkingCallbacks + 2 };
CSteamID m_steamIDRemote; // user who wants to talk to us
};
// callback notification - packets can't get through to the specified user via the SendP2PPacket() API
// all packets queued packets unsent at this point will be dropped
// further attempts to send will retry making the connection (but will be dropped if we fail again)
struct P2PSessionConnectFail_t
{
enum { k_iCallback = k_iSteamNetworkingCallbacks + 3 };
CSteamID m_steamIDRemote; // user we were sending packets to
uint8 m_eP2PSessionError; // EP2PSessionError indicating why we're having trouble
};
// callback notification - status of a socket has changed
// used as part of the CreateListenSocket() / CreateP2PConnectionSocket()
struct SocketStatusCallback_t
{
enum { k_iCallback = k_iSteamNetworkingCallbacks + 1 };
SNetSocket_t m_hSocket; // the socket used to send/receive data to the remote host
SNetListenSocket_t m_hListenSocket; // this is the server socket that we were listening on; NULL if this was an outgoing connection
CSteamID m_steamIDRemote; // remote steamID we have connected to, if it has one
int m_eSNetSocketState; // socket state, ESNetSocketState
};
#pragma pack( pop )
#endif // ISTEAMNETWORKING

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//====== Copyright © 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose: public interface to user remote file storage in Steam
//
//=============================================================================
#ifndef ISTEAMREMOTESTORAGE_H
#define ISTEAMREMOTESTORAGE_H
#ifdef _WIN32
#pragma once
#endif
#include "isteamclient.h"
// A handle to a piece of user generated content
typedef uint64 UGCHandle_t;
const UGCHandle_t k_UGCHandleInvalid = 0xffffffffffffffffull;
// Ways to handle a synchronization conflict
enum EResolveConflict
{
k_EResolveConflictKeepClient = 1, // The local version of each file will be used to overwrite the server version
k_EResolveConflictKeepServer = 2, // The server version of each file will be used to overwrite the local version
};
enum ERemoteStoragePlatform
{
k_ERemoteStoragePlatformNone = 0,
k_ERemoteStoragePlatformWindows = (1 << 0),
k_ERemoteStoragePlatformOSX = (1 << 1 ),
k_ERemoteStoragePlatformPS3 = (1 << 2),
k_ERemoteStoragePlatformAll = 0xffffffff
};
//-----------------------------------------------------------------------------
// Purpose: Functions for accessing, reading and writing files stored remotely
// and cached locally
//-----------------------------------------------------------------------------
class ISteamRemoteStorage
{
public:
// NOTE
//
// Filenames are case-insensitive, and will be converted to lowercase automatically.
// So "foo.bar" and "Foo.bar" are the same file, and if you write "Foo.bar" then
// iterate the files, the filename returned will be "foo.bar".
//
// file operations
virtual bool FileWrite( const char *pchFile, const void *pvData, int32 cubData ) = 0;
virtual int32 FileRead( const char *pchFile, void *pvData, int32 cubDataToRead ) = 0;
virtual bool FileForget( const char *pchFile ) = 0;
virtual bool FileDelete( const char *pchFile ) = 0;
virtual SteamAPICall_t FileShare( const char *pchFile ) = 0;
// file information
virtual bool FileExists( const char *pchFile ) = 0;
virtual bool FilePersisted( const char *pchFile ) = 0;
virtual int32 GetFileSize( const char *pchFile ) = 0;
virtual int64 GetFileTimestamp( const char *pchFile ) = 0;
// iteration
virtual int32 GetFileCount() = 0;
virtual const char *GetFileNameAndSize( int iFile, int32 *pnFileSizeInBytes ) = 0;
// configuration management
virtual bool GetQuota( int32 *pnTotalBytes, int32 *puAvailableBytes ) = 0;
virtual bool IsCloudEnabledForAccount() = 0;
virtual bool IsCloudEnabledForApp() = 0;
virtual void SetCloudEnabledForApp( bool bEnabled ) = 0;
// user generated content
virtual SteamAPICall_t UGCDownload( UGCHandle_t hContent ) = 0;
virtual bool GetUGCDetails( UGCHandle_t hContent, AppId_t *pnAppID, char **ppchName, int32 *pnFileSizeInBytes, CSteamID *pSteamIDOwner ) = 0;
virtual int32 UGCRead( UGCHandle_t hContent, void *pvData, int32 cubDataToRead ) = 0;
// user generated content iteration
virtual int32 GetCachedUGCCount() = 0;
virtual UGCHandle_t GetCachedUGCHandle( int32 iCachedContent ) = 0;
};
#define STEAMREMOTESTORAGE_INTERFACE_VERSION "STEAMREMOTESTORAGE_INTERFACE_VERSION003"
// callbacks
#pragma pack( push, 8 )
//-----------------------------------------------------------------------------
// Purpose: sent when the local file cache is fully synced with the server for an app
// That means that an application can be started and has all latest files
//-----------------------------------------------------------------------------
struct RemoteStorageAppSyncedClient_t
{
enum { k_iCallback = k_iClientRemoteStorageCallbacks + 1 };
AppId_t m_nAppID;
EResult m_eResult;
int m_unNumDownloads;
};
//-----------------------------------------------------------------------------
// Purpose: sent when the server is fully synced with the local file cache for an app
// That means that we can shutdown Steam and our data is stored on the server
//-----------------------------------------------------------------------------
struct RemoteStorageAppSyncedServer_t
{
enum { k_iCallback = k_iClientRemoteStorageCallbacks + 2 };
AppId_t m_nAppID;
EResult m_eResult;
int m_unNumUploads;
};
//-----------------------------------------------------------------------------
// Purpose: Status of up and downloads during a sync session
//
//-----------------------------------------------------------------------------
struct RemoteStorageAppSyncProgress_t
{
enum { k_iCallback = k_iClientRemoteStorageCallbacks + 3 };
char m_rgchCurrentFile[260]; // Current file being transferred
AppId_t m_nAppID; // App this info relates to
uint32 m_uBytesTransferredThisChunk; // Bytes transferred this chunk
double m_dAppPercentComplete; // Percent complete that this app's transfers are
bool m_bUploading; // if false, downloading
};
//
// IMPORTANT! k_iClientRemoteStorageCallbacks + 4-5 are used, see iclientremotestorage.h
//
//-----------------------------------------------------------------------------
// Purpose: Sent after a conflict resolution attempt.
//-----------------------------------------------------------------------------
struct RemoteStorageConflictResolution_t
{
enum { k_iCallback = k_iClientRemoteStorageCallbacks + 6 };
AppId_t m_nAppID;
EResult m_eResult;
};
//-----------------------------------------------------------------------------
// Purpose: The result of a call to FileShare()
//-----------------------------------------------------------------------------
struct RemoteStorageFileShareResult_t
{
enum { k_iCallback = k_iClientRemoteStorageCallbacks + 7 };
EResult m_eResult; // The result of the operation
UGCHandle_t m_hFile; // The handle that can be shared with users and features
};
//-----------------------------------------------------------------------------
// Purpose: The result of a call to UGCDownload()
//-----------------------------------------------------------------------------
struct RemoteStorageDownloadUGCResult_t
{
enum { k_iCallback = k_iClientRemoteStorageCallbacks + 8 };
EResult m_eResult; // The result of the operation.
UGCHandle_t m_hFile; // The handle to the file that was attempted to be downloaded.
AppId_t m_nAppID; // ID of the app that created this file.
int32 m_nSizeInBytes; // The size of the file that was downloaded, in bytes.
char *m_pchFileName; // The name of the file that was downloaded. This pointer is
// not guaranteed to be valid indefinitely.
uint64 m_ulSteamIDOwner; // Steam ID of the user who created this content.
};
#pragma pack( pop )
#endif // ISTEAMREMOTESTORAGE_H

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//====== Copyright (c) 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose: interface to user account information in Steam
//
//=============================================================================
#ifndef ISTEAMUSER_H
#define ISTEAMUSER_H
#ifdef _WIN32
#pragma once
#endif
#include "isteamclient.h"
// structure that contains client callback data
// see callbacks documentation for more details
#pragma pack( push, 8 )
struct CallbackMsg_t
{
HSteamUser m_hSteamUser;
int m_iCallback;
uint8 *m_pubParam;
int m_cubParam;
};
#pragma pack( pop )
// reference to a steam call, to filter results by
typedef int32 HSteamCall;
//-----------------------------------------------------------------------------
// Purpose: Functions for accessing and manipulating a steam account
// associated with one client instance
//-----------------------------------------------------------------------------
class ISteamUser
{
public:
// returns the HSteamUser this interface represents
// this is only used internally by the API, and by a few select interfaces that support multi-user
virtual HSteamUser GetHSteamUser() = 0;
// returns true if the Steam client current has a live connection to the Steam servers.
// If false, it means there is no active connection due to either a networking issue on the local machine, or the Steam server is down/busy.
// The Steam client will automatically be trying to recreate the connection as often as possible.
virtual bool BLoggedOn() = 0;
// returns the CSteamID of the account currently logged into the Steam client
// a CSteamID is a unique identifier for an account, and used to differentiate users in all parts of the Steamworks API
virtual CSteamID GetSteamID() = 0;
// Multiplayer Authentication functions
// InitiateGameConnection() starts the state machine for authenticating the game client with the game server
// It is the client portion of a three-way handshake between the client, the game server, and the steam servers
//
// Parameters:
// void *pAuthBlob - a pointer to empty memory that will be filled in with the authentication token.
// int cbMaxAuthBlob - the number of bytes of allocated memory in pBlob. Should be at least 2048 bytes.
// CSteamID steamIDGameServer - the steamID of the game server, received from the game server by the client
// CGameID gameID - the ID of the current game. For games without mods, this is just CGameID( <appID> )
// uint32 unIPServer, uint16 usPortServer - the IP address of the game server
// bool bSecure - whether or not the client thinks that the game server is reporting itself as secure (i.e. VAC is running)
//
// return value - returns the number of bytes written to pBlob. If the return is 0, then the buffer passed in was too small, and the call has failed
// The contents of pBlob should then be sent to the game server, for it to use to complete the authentication process.
virtual int InitiateGameConnection( void *pAuthBlob, int cbMaxAuthBlob, CSteamID steamIDGameServer, uint32 unIPServer, uint16 usPortServer, bool bSecure ) = 0;
// notify of disconnect
// needs to occur when the game client leaves the specified game server, needs to match with the InitiateGameConnection() call
virtual void TerminateGameConnection( uint32 unIPServer, uint16 usPortServer ) = 0;
// Legacy functions
// used by only a few games to track usage events
virtual void TrackAppUsageEvent( CGameID gameID, int eAppUsageEvent, const char *pchExtraInfo = "" ) = 0;
// get the local storage folder for current Steam account to write application data, e.g. save games, configs etc.
// this will usually be something like "C:\Progam Files\Steam\userdata\<SteamID>\<AppID>\local"
virtual bool GetUserDataFolder( char *pchBuffer, int cubBuffer ) = 0;
// Starts voice recording. Once started, use GetVoice() to get the data
virtual void StartVoiceRecording( ) = 0;
// Stops voice recording. Because people often release push-to-talk keys early, the system will keep recording for
// a little bit after this function is called. GetVoice() should continue to be called until it returns
// k_eVoiceResultNotRecording
virtual void StopVoiceRecording( ) = 0;
// Determine the amount of captured audio data that is available in bytes.
// This provides both the compressed and uncompressed data. Please note that the uncompressed
// data is not the raw feed from the microphone: data may only be available if audible
// levels of speech are detected.
virtual EVoiceResult GetAvailableVoice(uint32 *pcbCompressed, uint32 *pcbUncompressed) = 0;
// Gets the latest voice data from the microphone. Compressed data is an arbitrary format, and is meant to be handed back to
// DecompressVoice() for playback later as a binary blob. Uncompressed data is 16-bit, signed integer, 11025Hz PCM format.
// Please note that the uncompressed data is not the raw feed from the microphone: data may only be available if audible
// levels of speech are detected, and may have passed through denoising filters, etc.
// This function should be called as often as possible once recording has started; once per frame at least.
// nBytesWritten is set to the number of bytes written to pDestBuffer.
// nUncompressedBytesWritten is set to the number of bytes written to pUncompressedDestBuffer.
// You must grab both compressed and uncompressed here at the same time, if you want both.
// Matching data that is not read during this call will be thrown away.
// GetAvailableVoice() can be used to determine how much data is actually available.
virtual EVoiceResult GetVoice( bool bWantCompressed, void *pDestBuffer, uint32 cbDestBufferSize, uint32 *nBytesWritten, bool bWantUncompressed, void *pUncompressedDestBuffer, uint32 cbUncompressedDestBufferSize, uint32 *nUncompressBytesWritten ) = 0;
// Decompresses a chunk of compressed data produced by GetVoice().
// nBytesWritten is set to the number of bytes written to pDestBuffer unless the return value is k_EVoiceResultBufferTooSmall.
// In that case, nBytesWritten is set to the size of the buffer required to decompress the given
// data. The suggested buffer size for the destination buffer is 22 kilobytes.
// The output format of the data is 16-bit signed at 11025 samples per second.
virtual EVoiceResult DecompressVoice( const void *pCompressed, uint32 cbCompressed, void *pDestBuffer, uint32 cbDestBufferSize, uint32 *nBytesWritten ) = 0;
// Retrieve ticket to be sent to the entity who wishes to authenticate you.
// pcbTicket retrieves the length of the actual ticket.
virtual HAuthTicket GetAuthSessionTicket( void *pTicket, int cbMaxTicket, uint32 *pcbTicket ) = 0;
// Authenticate ticket from entity steamID to be sure it is valid and isnt reused
// Registers for callbacks if the entity goes offline or cancels the ticket ( see ValidateAuthTicketResponse_t callback and EAuthSessionResponse )
virtual EBeginAuthSessionResult BeginAuthSession( const void *pAuthTicket, int cbAuthTicket, CSteamID steamID ) = 0;
// Stop tracking started by BeginAuthSession - called when no longer playing game with this entity
virtual void EndAuthSession( CSteamID steamID ) = 0;
// Cancel auth ticket from GetAuthSessionTicket, called when no longer playing game with the entity you gave the ticket to
virtual void CancelAuthTicket( HAuthTicket hAuthTicket ) = 0;
// After receiving a user's authentication data, and passing it to BeginAuthSession, use this function
// to determine if the user owns downloadable content specified by the provided AppID.
virtual EUserHasLicenseForAppResult UserHasLicenseForApp( CSteamID steamID, AppId_t appID ) = 0;
// returns true if this users looks like they are behind a NAT device. Only valid once the user has connected to steam
// (i.e a SteamServersConnected_t has been issued) and may not catch all forms of NAT.
virtual bool BIsBehindNAT() = 0;
// set data to be replicated to friends so that they can join your game
// CSteamID steamIDGameServer - the steamID of the game server, received from the game server by the client
// uint32 unIPServer, uint16 usPortServer - the IP address of the game server
virtual void AdvertiseGame( CSteamID steamIDGameServer, uint32 unIPServer, uint16 usPortServer ) = 0;
// Requests a ticket encrypted with an app specific shared key
// pDataToInclude, cbDataToInclude will be encrypted into the ticket
// ( This is asynchronous, you must wait for the ticket to be completed by the server )
virtual SteamAPICall_t RequestEncryptedAppTicket( void *pDataToInclude, int cbDataToInclude ) = 0;
// retrieve a finished ticket
virtual bool GetEncryptedAppTicket( void *pTicket, int cbMaxTicket, uint32 *pcbTicket ) = 0;
#ifdef _PS3
// Initiates PS3 Logon request using just PSN ticket.
//
// PARAMS: bInteractive - If set tells Steam to go ahead and show the PS3 NetStart dialog if needed to
// prompt the user for network setup/PSN logon before initiating the Steam side of the logon.
//
// Listen for SteamServersConnected_t or SteamServerConnectFailure_t for status. SteamServerConnectFailure_t
// may return with EResult k_EResultPSNAccountUnlinked if the PSN account is unknown to Steam. You should
// then call LogOnAndLinkSteamAccountToPSN() after prompting the user for credentials to establish a link.
// Future calls to LogOn() after the one time link call should succeed as long as the user is connected to PSN.
virtual void LogOn( bool bInteractive ) = 0;
// Initiates a request to logon with a specific steam username/password and create a PSN account link at
// the same time. Should call this only if LogOn() has failed and indicated the PSN account is unlinked.
//
// PARAMS: bInteractive - If set tells Steam to go ahead and show the PS3 NetStart dialog if needed to
// prompt the user for network setup/PSN logon before initiating the Steam side of the logon. pchUserName
// should be the users Steam username, and pchPassword should be the users Steam password.
//
// Listen for SteamServersConnected_t or SteamServerConnectFailure_t for status. SteamServerConnectFailure_t
// may return with EResult k_EResultPSNAccountAlreadyLinked if already linked to another account.
virtual void LogOnAndLinkSteamAccountToPSN( bool bInteractive, const char *pchUserName, const char *pchPassword ) = 0;
// Final logon option for PS3, this logs into an existing account if already linked, but if not already linked
// creates a new account using the info in the PSN ticket to generate a unique account name. The new account is
// then linked to the PSN ticket. This is the faster option for new users who don't have an existing Steam account
// to get into multiplayer.
//
// PARAMS: bInteractive - If set tells Steam to go ahead and show the PS3 NetStart dialog if needed to
// prompt the user for network setup/PSN logon before initiating the Steam side of the logon.
virtual void LogOnAndCreateNewSteamAccountIfNeeded( bool bInteractive ) = 0;
#endif
};
#define STEAMUSER_INTERFACE_VERSION "SteamUser014"
// callbacks
#pragma pack( push, 8 )
//-----------------------------------------------------------------------------
// Purpose: called when a connections to the Steam back-end has been established
// this means the Steam client now has a working connection to the Steam servers
// usually this will have occurred before the game has launched, and should
// only be seen if the user has dropped connection due to a networking issue
// or a Steam server update
//-----------------------------------------------------------------------------
struct SteamServersConnected_t
{
enum { k_iCallback = k_iSteamUserCallbacks + 1 };
};
//-----------------------------------------------------------------------------
// Purpose: called when a connection attempt has failed
// this will occur periodically if the Steam client is not connected,
// and has failed in it's retry to establish a connection
//-----------------------------------------------------------------------------
struct SteamServerConnectFailure_t
{
enum { k_iCallback = k_iSteamUserCallbacks + 2 };
EResult m_eResult;
};
//-----------------------------------------------------------------------------
// Purpose: called if the client has lost connection to the Steam servers
// real-time services will be disabled until a matching SteamServersConnected_t has been posted
//-----------------------------------------------------------------------------
struct SteamServersDisconnected_t
{
enum { k_iCallback = k_iSteamUserCallbacks + 3 };
EResult m_eResult;
};
//-----------------------------------------------------------------------------
// Purpose: Sent by the Steam server to the client telling it to disconnect from the specified game server,
// which it may be in the process of or already connected to.
// The game client should immediately disconnect upon receiving this message.
// This can usually occur if the user doesn't have rights to play on the game server.
//-----------------------------------------------------------------------------
struct ClientGameServerDeny_t
{
enum { k_iCallback = k_iSteamUserCallbacks + 13 };
uint32 m_uAppID;
uint32 m_unGameServerIP;
uint16 m_usGameServerPort;
uint16 m_bSecure;
uint32 m_uReason;
};
//-----------------------------------------------------------------------------
// Purpose: called when the callback system for this client is in an error state (and has flushed pending callbacks)
// When getting this message the client should disconnect from Steam, reset any stored Steam state and reconnect.
// This usually occurs in the rare event the Steam client has some kind of fatal error.
//-----------------------------------------------------------------------------
struct IPCFailure_t
{
enum { k_iCallback = k_iSteamUserCallbacks + 17 };
enum EFailureType
{
k_EFailureFlushedCallbackQueue,
k_EFailurePipeFail,
};
uint8 m_eFailureType;
};
//-----------------------------------------------------------------------------
// callback for BeginAuthSession
//-----------------------------------------------------------------------------
struct ValidateAuthTicketResponse_t
{
enum { k_iCallback = k_iSteamUserCallbacks + 43 };
CSteamID m_SteamID;
EAuthSessionResponse m_eAuthSessionResponse;
};
//-----------------------------------------------------------------------------
// Purpose: called when a user has responded to a microtransaction authorization request
//-----------------------------------------------------------------------------
struct MicroTxnAuthorizationResponse_t
{
enum { k_iCallback = k_iSteamUserCallbacks + 52 };
uint32 m_unAppID; // AppID for this microtransaction
uint64 m_ulOrderID; // OrderID provided for the microtransaction
uint8 m_bAuthorized; // if user authorized transaction
};
//-----------------------------------------------------------------------------
// Purpose: Result from RequestEncryptedAppTicket
//-----------------------------------------------------------------------------
struct EncryptedAppTicketResponse_t
{
enum { k_iCallback = k_iSteamUserCallbacks + 54 };
EResult m_eResult;
};
#pragma pack( pop )
#endif // ISTEAMUSER_H

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//====== Copyright © 1996-2009, Valve Corporation, All rights reserved. =======
//
// Purpose: interface to stats, achievements, and leaderboards
//
//=============================================================================
#ifndef ISTEAMUSERSTATS_H
#define ISTEAMUSERSTATS_H
#ifdef _WIN32
#pragma once
#endif
#include "isteamclient.h"
#include "isteamremotestorage.h"
// size limit on stat or achievement name (UTF-8 encoded)
enum { k_cchStatNameMax = 128 };
// maximum number of bytes for a leaderboard name (UTF-8 encoded)
enum { k_cchLeaderboardNameMax = 128 };
// maximum number of details int32's storable for a single leaderboard entry
enum { k_cLeaderboardDetailsMax = 64 };
// handle to a single leaderboard
typedef uint64 SteamLeaderboard_t;
// handle to a set of downloaded entries in a leaderboard
typedef uint64 SteamLeaderboardEntries_t;
// type of data request, when downloading leaderboard entries
enum ELeaderboardDataRequest
{
k_ELeaderboardDataRequestGlobal = 0,
k_ELeaderboardDataRequestGlobalAroundUser = 1,
k_ELeaderboardDataRequestFriends = 2,
k_ELeaderboardDataRequestUsers = 3
};
// the sort order of a leaderboard
enum ELeaderboardSortMethod
{
k_ELeaderboardSortMethodNone = 0,
k_ELeaderboardSortMethodAscending = 1, // top-score is lowest number
k_ELeaderboardSortMethodDescending = 2, // top-score is highest number
};
// the display type (used by the Steam Community web site) for a leaderboard
enum ELeaderboardDisplayType
{
k_ELeaderboardDisplayTypeNone = 0,
k_ELeaderboardDisplayTypeNumeric = 1, // simple numerical score
k_ELeaderboardDisplayTypeTimeSeconds = 2, // the score represents a time, in seconds
k_ELeaderboardDisplayTypeTimeMilliSeconds = 3, // the score represents a time, in milliseconds
};
enum ELeaderboardUploadScoreMethod
{
k_ELeaderboardUploadScoreMethodNone = 0,
k_ELeaderboardUploadScoreMethodKeepBest = 1, // Leaderboard will keep user's best score
k_ELeaderboardUploadScoreMethodForceUpdate = 2, // Leaderboard will always replace score with specified
};
// a single entry in a leaderboard, as returned by GetDownloadedLeaderboardEntry()
#pragma pack( push, 8 )
struct LeaderboardEntry_t
{
CSteamID m_steamIDUser; // user with the entry - use SteamFriends()->GetFriendPersonaName() & SteamFriends()->GetFriendAvatar() to get more info
int32 m_nGlobalRank; // [1..N], where N is the number of users with an entry in the leaderboard
int32 m_nScore; // score as set in the leaderboard
int32 m_cDetails; // number of int32 details available for this entry
UGCHandle_t m_hUGC; // handle for UGC attached to the entry
};
#pragma pack( pop )
//-----------------------------------------------------------------------------
// Purpose: Functions for accessing stats, achievements, and leaderboard information
//-----------------------------------------------------------------------------
class ISteamUserStats
{
public:
// Ask the server to send down this user's data and achievements for this game
virtual bool RequestCurrentStats() = 0;
// Data accessors
virtual bool GetStat( const char *pchName, int32 *pData ) = 0;
virtual bool GetStat( const char *pchName, float *pData ) = 0;
// Set / update data
virtual bool SetStat( const char *pchName, int32 nData ) = 0;
virtual bool SetStat( const char *pchName, float fData ) = 0;
virtual bool UpdateAvgRateStat( const char *pchName, float flCountThisSession, double dSessionLength ) = 0;
// Achievement flag accessors
virtual bool GetAchievement( const char *pchName, bool *pbAchieved ) = 0;
virtual bool SetAchievement( const char *pchName ) = 0;
virtual bool ClearAchievement( const char *pchName ) = 0;
// Get the achievement status, and the time it was unlocked if unlocked.
// If the return value is true, but the unlock time is zero, that means it was unlocked before Steam
// began tracking achievement unlock times (December 2009). Time is seconds since January 1, 1970.
virtual bool GetAchievementAndUnlockTime( const char *pchName, bool *pbAchieved, uint32 *punUnlockTime ) = 0;
// Store the current data on the server, will get a callback when set
// And one callback for every new achievement
//
// If the callback has a result of k_EResultInvalidParam, one or more stats
// uploaded has been rejected, either because they broke constraints
// or were out of date. In this case the server sends back updated values.
// The stats should be re-iterated to keep in sync.
virtual bool StoreStats() = 0;
// Achievement / GroupAchievement metadata
// Gets the icon of the achievement, which is a handle to be used in IClientUtils::GetImageRGBA(), or 0 if none set.
// A return value of 0 may indicate we are still fetching data, and you can wait for the UserAchievementIconReady_t callback
// which will notify you when the bits are actually read. If the callback still returns zero, then there is no image set
// and there never will be.
virtual int GetAchievementIcon( const char *pchName ) = 0;
// Get general attributes (display name / text, etc) for an Achievement
virtual const char *GetAchievementDisplayAttribute( const char *pchName, const char *pchKey ) = 0;
// Achievement progress - triggers an AchievementProgress callback, that is all.
// Calling this w/ N out of N progress will NOT set the achievement, the game must still do that.
virtual bool IndicateAchievementProgress( const char *pchName, uint32 nCurProgress, uint32 nMaxProgress ) = 0;
// Friends stats & achievements
// downloads stats for the user
// returns a UserStatsReceived_t received when completed
// if the other user has no stats, UserStatsReceived_t.m_eResult will be set to k_EResultFail
// these stats won't be auto-updated; you'll need to call RequestUserStats() again to refresh any data
virtual SteamAPICall_t RequestUserStats( CSteamID steamIDUser ) = 0;
// requests stat information for a user, usable after a successful call to RequestUserStats()
virtual bool GetUserStat( CSteamID steamIDUser, const char *pchName, int32 *pData ) = 0;
virtual bool GetUserStat( CSteamID steamIDUser, const char *pchName, float *pData ) = 0;
virtual bool GetUserAchievement( CSteamID steamIDUser, const char *pchName, bool *pbAchieved ) = 0;
// See notes for GetAchievementAndUnlockTime above
virtual bool GetUserAchievementAndUnlockTime( CSteamID steamIDUser, const char *pchName, bool *pbAchieved, uint32 *punUnlockTime ) = 0;
// Reset stats
virtual bool ResetAllStats( bool bAchievementsToo ) = 0;
// Leaderboard functions
// asks the Steam back-end for a leaderboard by name, and will create it if it's not yet
// This call is asynchronous, with the result returned in LeaderboardFindResult_t
virtual SteamAPICall_t FindOrCreateLeaderboard( const char *pchLeaderboardName, ELeaderboardSortMethod eLeaderboardSortMethod, ELeaderboardDisplayType eLeaderboardDisplayType ) = 0;
// as above, but won't create the leaderboard if it's not found
// This call is asynchronous, with the result returned in LeaderboardFindResult_t
virtual SteamAPICall_t FindLeaderboard( const char *pchLeaderboardName ) = 0;
// returns the name of a leaderboard
virtual const char *GetLeaderboardName( SteamLeaderboard_t hSteamLeaderboard ) = 0;
// returns the total number of entries in a leaderboard, as of the last request
virtual int GetLeaderboardEntryCount( SteamLeaderboard_t hSteamLeaderboard ) = 0;
// returns the sort method of the leaderboard
virtual ELeaderboardSortMethod GetLeaderboardSortMethod( SteamLeaderboard_t hSteamLeaderboard ) = 0;
// returns the display type of the leaderboard
virtual ELeaderboardDisplayType GetLeaderboardDisplayType( SteamLeaderboard_t hSteamLeaderboard ) = 0;
// Asks the Steam back-end for a set of rows in the leaderboard.
// This call is asynchronous, with the result returned in LeaderboardScoresDownloaded_t
// LeaderboardScoresDownloaded_t will contain a handle to pull the results from GetDownloadedLeaderboardEntries() (below)
// You can ask for more entries than exist, and it will return as many as do exist.
// k_ELeaderboardDataRequestGlobal requests rows in the leaderboard from the full table, with nRangeStart & nRangeEnd in the range [1, TotalEntries]
// k_ELeaderboardDataRequestGlobalAroundUser requests rows around the current user, nRangeStart being negate
// e.g. DownloadLeaderboardEntries( hLeaderboard, k_ELeaderboardDataRequestGlobalAroundUser, -3, 3 ) will return 7 rows, 3 before the user, 3 after
// k_ELeaderboardDataRequestFriends requests all the rows for friends of the current user
virtual SteamAPICall_t DownloadLeaderboardEntries( SteamLeaderboard_t hSteamLeaderboard, ELeaderboardDataRequest eLeaderboardDataRequest, int nRangeStart, int nRangeEnd ) = 0;
// Returns data about a single leaderboard entry
// use a for loop from 0 to LeaderboardScoresDownloaded_t::m_cEntryCount to get all the downloaded entries
// e.g.
// void OnLeaderboardScoresDownloaded( LeaderboardScoresDownloaded_t *pLeaderboardScoresDownloaded )
// {
// for ( int index = 0; index < pLeaderboardScoresDownloaded->m_cEntryCount; index++ )
// {
// LeaderboardEntry_t leaderboardEntry;
// int32 details[3]; // we know this is how many we've stored previously
// GetDownloadedLeaderboardEntry( pLeaderboardScoresDownloaded->m_hSteamLeaderboardEntries, index, &leaderboardEntry, details, 3 );
// assert( leaderboardEntry.m_cDetails == 3 );
// ...
// }
// once you've accessed all the entries, the data will be free'd, and the SteamLeaderboardEntries_t handle will become invalid
virtual bool GetDownloadedLeaderboardEntry( SteamLeaderboardEntries_t hSteamLeaderboardEntries, int index, LeaderboardEntry_t *pLeaderboardEntry, int32 *pDetails, int cDetailsMax ) = 0;
// Uploads a user score to the Steam back-end.
// This call is asynchronous, with the result returned in LeaderboardScoreUploaded_t
// Details are extra game-defined information regarding how the user got that score
// pScoreDetails points to an array of int32's, cScoreDetailsCount is the number of int32's in the list
virtual SteamAPICall_t UploadLeaderboardScore( SteamLeaderboard_t hSteamLeaderboard, ELeaderboardUploadScoreMethod eLeaderboardUploadScoreMethod, int32 nScore, const int32 *pScoreDetails, int cScoreDetailsCount ) = 0;
// Attaches a piece of user generated content the user's entry on a leaderboard.
// hContent is a handle to a piece of user generated content that was shared using ISteamUserRemoteStorage::FileShare().
// This call is asynchronous, with the result returned in LeaderboardUGCSet_t.
virtual SteamAPICall_t AttachLeaderboardUGC( SteamLeaderboard_t hSteamLeaderboard, UGCHandle_t hUGC ) = 0;
// Retrieves the number of players currently playing your game (online + offline)
// This call is asynchronous, with the result returned in NumberOfCurrentPlayers_t
virtual SteamAPICall_t GetNumberOfCurrentPlayers() = 0;
};
#define STEAMUSERSTATS_INTERFACE_VERSION "STEAMUSERSTATS_INTERFACE_VERSION008"
// callbacks
#pragma pack( push, 8 )
//-----------------------------------------------------------------------------
// Purpose: called when the latests stats and achievements have been received
// from the server
//-----------------------------------------------------------------------------
struct UserStatsReceived_t
{
enum { k_iCallback = k_iSteamUserStatsCallbacks + 1 };
uint64 m_nGameID; // Game these stats are for
EResult m_eResult; // Success / error fetching the stats
CSteamID m_steamIDUser; // The user for whom the stats are retrieved for
};
//-----------------------------------------------------------------------------
// Purpose: result of a request to store the user stats for a game
//-----------------------------------------------------------------------------
struct UserStatsStored_t
{
enum { k_iCallback = k_iSteamUserStatsCallbacks + 2 };
uint64 m_nGameID; // Game these stats are for
EResult m_eResult; // success / error
};
//-----------------------------------------------------------------------------
// Purpose: result of a request to store the achievements for a game, or an
// "indicate progress" call. If both m_nCurProgress and m_nMaxProgress
// are zero, that means the achievement has been fully unlocked.
//-----------------------------------------------------------------------------
struct UserAchievementStored_t
{
enum { k_iCallback = k_iSteamUserStatsCallbacks + 3 };
uint64 m_nGameID; // Game this is for
bool m_bGroupAchievement; // if this is a "group" achievement
char m_rgchAchievementName[k_cchStatNameMax]; // name of the achievement
uint32 m_nCurProgress; // current progress towards the achievement
uint32 m_nMaxProgress; // "out of" this many
};
//-----------------------------------------------------------------------------
// Purpose: call result for finding a leaderboard, returned as a result of FindOrCreateLeaderboard() or FindLeaderboard()
// use CCallResult<> to map this async result to a member function
//-----------------------------------------------------------------------------
struct LeaderboardFindResult_t
{
enum { k_iCallback = k_iSteamUserStatsCallbacks + 4 };
SteamLeaderboard_t m_hSteamLeaderboard; // handle to the leaderboard serarched for, 0 if no leaderboard found
uint8 m_bLeaderboardFound; // 0 if no leaderboard found
};
//-----------------------------------------------------------------------------
// Purpose: call result indicating scores for a leaderboard have been downloaded and are ready to be retrieved, returned as a result of DownloadLeaderboardEntries()
// use CCallResult<> to map this async result to a member function
//-----------------------------------------------------------------------------
struct LeaderboardScoresDownloaded_t
{
enum { k_iCallback = k_iSteamUserStatsCallbacks + 5 };
SteamLeaderboard_t m_hSteamLeaderboard;
SteamLeaderboardEntries_t m_hSteamLeaderboardEntries; // the handle to pass into GetDownloadedLeaderboardEntries()
int m_cEntryCount; // the number of entries downloaded
};
//-----------------------------------------------------------------------------
// Purpose: call result indicating scores has been uploaded, returned as a result of UploadLeaderboardScore()
// use CCallResult<> to map this async result to a member function
//-----------------------------------------------------------------------------
struct LeaderboardScoreUploaded_t
{
enum { k_iCallback = k_iSteamUserStatsCallbacks + 6 };
uint8 m_bSuccess; // 1 if the call was successful
SteamLeaderboard_t m_hSteamLeaderboard; // the leaderboard handle that was
int32 m_nScore; // the score that was attempted to set
uint8 m_bScoreChanged; // true if the score in the leaderboard change, false if the existing score was better
int m_nGlobalRankNew; // the new global rank of the user in this leaderboard
int m_nGlobalRankPrevious; // the previous global rank of the user in this leaderboard; 0 if the user had no existing entry in the leaderboard
};
struct NumberOfCurrentPlayers_t
{
enum { k_iCallback = k_iSteamUserStatsCallbacks + 7 };
uint8 m_bSuccess; // 1 if the call was successful
int32 m_cPlayers; // Number of players currently playing
};
//-----------------------------------------------------------------------------
// Purpose: Callback indicating that a user's stats have been unloaded.
// Call RequestUserStats again to access stats for this user
//-----------------------------------------------------------------------------
struct UserStatsUnloaded_t
{
enum { k_iCallback = k_iSteamUserStatsCallbacks + 8 };
CSteamID m_steamIDUser; // User whose stats have been unloaded
};
//-----------------------------------------------------------------------------
// Purpose: Callback indicating that an achievement icon has been fetched
//-----------------------------------------------------------------------------
struct UserAchievementIconFetched_t
{
enum { k_iCallback = k_iSteamUserStatsCallbacks + 9 };
CGameID m_nGameID; // Game this is for
char m_rgchAchievementName[k_cchStatNameMax]; // name of the achievement
bool m_bAchieved; // Is the icon for the achieved or not achieved version?
int m_nIconHandle; // Handle to the image, which can be used in ClientUtils()->GetImageRGBA(), 0 means no image is set for the achievement
};
//
// IMPORTANT! k_iSteamUserStatsCallbacks + 10 is used, see iclientuserstats.h
//
//-----------------------------------------------------------------------------
// Purpose: call result indicating UGC has been uploaded, returned as a result of SetLeaderboardUGC()
//-----------------------------------------------------------------------------
struct LeaderboardUGCSet_t
{
enum { k_iCallback = k_iSteamUserStatsCallbacks + 11 };
EResult m_eResult; // The result of the operation
SteamLeaderboard_t m_hSteamLeaderboard; // the leaderboard handle that was
};
#pragma pack( pop )
#endif // ISTEAMUSER_H

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//====== Copyright © 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose: interface to utility functions in Steam
//
//=============================================================================
#ifndef ISTEAMUTILS_H
#define ISTEAMUTILS_H
#ifdef _WIN32
#pragma once
#endif
#include "isteamclient.h"
// Steam API call failure results
enum ESteamAPICallFailure
{
k_ESteamAPICallFailureNone = -1, // no failure
k_ESteamAPICallFailureSteamGone = 0, // the local Steam process has gone away
k_ESteamAPICallFailureNetworkFailure = 1, // the network connection to Steam has been broken, or was already broken
// SteamServersDisconnected_t callback will be sent around the same time
// SteamServersConnected_t will be sent when the client is able to talk to the Steam servers again
k_ESteamAPICallFailureInvalidHandle = 2, // the SteamAPICall_t handle passed in no longer exists
k_ESteamAPICallFailureMismatchedCallback = 3,// GetAPICallResult() was called with the wrong callback type for this API call
};
// function prototype for warning message hook
#if defined( POSIX )
#define __cdecl
#endif
extern "C" typedef void (__cdecl *SteamAPIWarningMessageHook_t)(int, const char *);
//-----------------------------------------------------------------------------
// Purpose: interface to user independent utility functions
//-----------------------------------------------------------------------------
class ISteamUtils
{
public:
// return the number of seconds since the user
virtual uint32 GetSecondsSinceAppActive() = 0;
virtual uint32 GetSecondsSinceComputerActive() = 0;
// the universe this client is connecting to
virtual EUniverse GetConnectedUniverse() = 0;
// Steam server time - in PST, number of seconds since January 1, 1970 (i.e unix time)
virtual uint32 GetServerRealTime() = 0;
// returns the 2 digit ISO 3166-1-alpha-2 format country code this client is running in (as looked up via an IP-to-location database)
// e.g "US" or "UK".
virtual const char *GetIPCountry() = 0;
// returns true if the image exists, and valid sizes were filled out
virtual bool GetImageSize( int iImage, uint32 *pnWidth, uint32 *pnHeight ) = 0;
// returns true if the image exists, and the buffer was successfully filled out
// results are returned in RGBA format
// the destination buffer size should be 4 * height * width * sizeof(char)
virtual bool GetImageRGBA( int iImage, uint8 *pubDest, int nDestBufferSize ) = 0;
// returns the IP of the reporting server for valve - currently only used in Source engine games
virtual bool GetCSERIPPort( uint32 *unIP, uint16 *usPort ) = 0;
// return the amount of battery power left in the current system in % [0..100], 255 for being on AC power
virtual uint8 GetCurrentBatteryPower() = 0;
// returns the appID of the current process
virtual uint32 GetAppID() = 0;
// Sets the position where the overlay instance for the currently calling game should show notifications.
// This position is per-game and if this function is called from outside of a game context it will do nothing.
virtual void SetOverlayNotificationPosition( ENotificationPosition eNotificationPosition ) = 0;
// API asynchronous call results
// can be used directly, but more commonly used via the callback dispatch API (see steam_api.h)
virtual bool IsAPICallCompleted( SteamAPICall_t hSteamAPICall, bool *pbFailed ) = 0;
virtual ESteamAPICallFailure GetAPICallFailureReason( SteamAPICall_t hSteamAPICall ) = 0;
virtual bool GetAPICallResult( SteamAPICall_t hSteamAPICall, void *pCallback, int cubCallback, int iCallbackExpected, bool *pbFailed ) = 0;
// this needs to be called every frame to process matchmaking results
// redundant if you're already calling SteamAPI_RunCallbacks()
virtual void RunFrame() = 0;
// returns the number of IPC calls made since the last time this function was called
// Used for perf debugging so you can understand how many IPC calls your game makes per frame
// Every IPC call is at minimum a thread context switch if not a process one so you want to rate
// control how often you do them.
virtual uint32 GetIPCCallCount() = 0;
// API warning handling
// 'int' is the severity; 0 for msg, 1 for warning
// 'const char *' is the text of the message
// callbacks will occur directly after the API function is called that generated the warning or message
virtual void SetWarningMessageHook( SteamAPIWarningMessageHook_t pFunction ) = 0;
// Returns true if the overlay is running & the user can access it. The overlay process could take a few seconds to
// start & hook the game process, so this function will initially return false while the overlay is loading.
virtual bool IsOverlayEnabled() = 0;
// Normally this call is unneeded if your game has a constantly running frame loop that calls the
// D3D Present API, or OGL SwapBuffers API every frame.
//
// However, if you have a game that only refreshes the screen on an event driven basis then that can break
// the overlay, as it uses your Present/SwapBuffers calls to drive it's internal frame loop and it may also
// need to Present() to the screen any time an even needing a notification happens or when the overlay is
// brought up over the game by a user. You can use this API to ask the overlay if it currently need a present
// in that case, and then you can check for this periodically (roughly 33hz is desirable) and make sure you
// refresh the screen with Present or SwapBuffers to allow the overlay to do it's work.
virtual bool BOverlayNeedsPresent() = 0;
#ifndef _PS3
// Asynchronous call to check if an executable file has been signed using the public key set on the signing tab
// of the partner site, for example to refuse to load modified executable files.
// The result is returned in CheckFileSignature_t.
// k_ECheckFileSignatureNoSignaturesFoundForThisApp - This app has not been configured on the signing tab of the partner site to enable this function.
// k_ECheckFileSignatureNoSignaturesFoundForThisFile - This file is not listed on the signing tab for the partner site.
// k_ECheckFileSignatureFileNotFound - The file does not exist on disk.
// k_ECheckFileSignatureInvalidSignature - The file exists, and the signing tab has been set for this file, but the file is either not signed or the signature does not match.
// k_ECheckFileSignatureValidSignature - The file is signed and the signature is valid.
virtual SteamAPICall_t CheckFileSignature( const char *szFileName ) = 0;
#endif
#ifdef _PS3
virtual void PostPS3SysutilCallback( uint64_t status, uint64_t param, void* userdata ) = 0;
virtual bool BIsReadyToShutdown() = 0;
#endif
};
#define STEAMUTILS_INTERFACE_VERSION "SteamUtils005"
// callbacks
#pragma pack( push, 8 )
//-----------------------------------------------------------------------------
// Purpose: The country of the user changed
//-----------------------------------------------------------------------------
struct IPCountry_t
{
enum { k_iCallback = k_iSteamUtilsCallbacks + 1 };
};
//-----------------------------------------------------------------------------
// Purpose: Fired when running on a laptop and less than 10 minutes of battery is left, fires then every minute
//-----------------------------------------------------------------------------
struct LowBatteryPower_t
{
enum { k_iCallback = k_iSteamUtilsCallbacks + 2 };
uint8 m_nMinutesBatteryLeft;
};
//-----------------------------------------------------------------------------
// Purpose: called when a SteamAsyncCall_t has completed (or failed)
//-----------------------------------------------------------------------------
struct SteamAPICallCompleted_t
{
enum { k_iCallback = k_iSteamUtilsCallbacks + 3 };
SteamAPICall_t m_hAsyncCall;
};
//-----------------------------------------------------------------------------
// called when Steam wants to shutdown
//-----------------------------------------------------------------------------
struct SteamShutdown_t
{
enum { k_iCallback = k_iSteamUtilsCallbacks + 4 };
};
//-----------------------------------------------------------------------------
// results for CheckFileSignature
//-----------------------------------------------------------------------------
enum ECheckFileSignature
{
k_ECheckFileSignatureInvalidSignature = 0,
k_ECheckFileSignatureValidSignature = 1,
k_ECheckFileSignatureFileNotFound = 2,
k_ECheckFileSignatureNoSignaturesFoundForThisApp = 3,
k_ECheckFileSignatureNoSignaturesFoundForThisFile = 4,
};
//-----------------------------------------------------------------------------
// callback for CheckFileSignature
//-----------------------------------------------------------------------------
struct CheckFileSignature_t
{
enum { k_iCallback = k_iSteamUtilsCallbacks + 5 };
ECheckFileSignature m_eCheckFileSignature;
};
#ifdef _PS3
//-----------------------------------------------------------------------------
// callback for NetCtlNetStartDialog finishing on PS3
//-----------------------------------------------------------------------------
struct NetStartDialogFinished_t
{
enum { k_iCallback = k_iSteamUtilsCallbacks + 6 };
};
//-----------------------------------------------------------------------------
// callback for NetCtlNetStartDialog unloaded on PS3
//-----------------------------------------------------------------------------
struct NetStartDialogUnloaded_t
{
enum { k_iCallback = k_iSteamUtilsCallbacks + 7 };
};
#endif
#pragma pack( pop )
#endif // ISTEAMUTILS_H

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//========= Copyright <20> 1996-2008, Valve LLC, All rights reserved. ============
//
// Purpose:
//
// $NoKeywords: $
//=============================================================================
#ifndef MATCHMAKINGTYPES_H
#define MATCHMAKINGTYPES_H
#ifdef _WIN32
#pragma once
#endif
#ifdef POSIX
#ifndef _snprintf
#define _snprintf snprintf
#endif
#endif
#include <stdio.h>
#include <string.h>
struct MatchMakingKeyValuePair_t
{
MatchMakingKeyValuePair_t() { m_szKey[0] = m_szValue[0] = 0; }
MatchMakingKeyValuePair_t( const char *pchKey, const char *pchValue )
{
strncpy( m_szKey, pchKey, sizeof(m_szKey) ); // this is a public header, use basic c library string funcs only!
strncpy( m_szValue, pchValue, sizeof(m_szValue) );
}
char m_szKey[ 256 ];
char m_szValue[ 256 ];
};
enum EMatchMakingServerResponse
{
eServerResponded = 0,
eServerFailedToRespond,
eNoServersListedOnMasterServer // for the Internet query type, returned in response callback if no servers of this type match
};
// servernetadr_t is all the addressing info the serverbrowser needs to know about a game server,
// namely: its IP, its connection port, and its query port.
class servernetadr_t
{
public:
void Init( unsigned int ip, uint16 usQueryPort, uint16 usConnectionPort );
#ifdef NETADR_H
void Init( const netadr_t &ipAndQueryPort, uint16 usConnectionPort );
netadr_t& GetIPAndQueryPort();
#endif
// Access the query port.
uint16 GetQueryPort() const;
void SetQueryPort( uint16 usPort );
// Access the connection port.
uint16 GetConnectionPort() const;
void SetConnectionPort( uint16 usPort );
// Access the IP
uint32 GetIP() const;
void SetIP( uint32 );
// This gets the 'a.b.c.d:port' string with the connection port (instead of the query port).
const char *GetConnectionAddressString() const;
const char *GetQueryAddressString() const;
// Comparison operators and functions.
bool operator<(const servernetadr_t &netadr) const;
void operator=( const servernetadr_t &that )
{
m_usConnectionPort = that.m_usConnectionPort;
m_usQueryPort = that.m_usQueryPort;
m_unIP = that.m_unIP;
}
private:
const char *ToString( uint32 unIP, uint16 usPort ) const;
uint16 m_usConnectionPort; // (in HOST byte order)
uint16 m_usQueryPort;
uint32 m_unIP;
};
inline void servernetadr_t::Init( unsigned int ip, uint16 usQueryPort, uint16 usConnectionPort )
{
m_unIP = ip;
m_usQueryPort = usQueryPort;
m_usConnectionPort = usConnectionPort;
}
#ifdef NETADR_H
inline void servernetadr_t::Init( const netadr_t &ipAndQueryPort, uint16 usConnectionPort )
{
Init( ipAndQueryPort.GetIP(), ipAndQueryPort.GetPort(), usConnectionPort );
}
inline netadr_t& servernetadr_t::GetIPAndQueryPort()
{
static netadr_t netAdr;
netAdr.SetIP( m_unIP );
netAdr.SetPort( m_usQueryPort );
return netAdr;
}
#endif
inline uint16 servernetadr_t::GetQueryPort() const
{
return m_usQueryPort;
}
inline void servernetadr_t::SetQueryPort( uint16 usPort )
{
m_usQueryPort = usPort;
}
inline uint16 servernetadr_t::GetConnectionPort() const
{
return m_usConnectionPort;
}
inline void servernetadr_t::SetConnectionPort( uint16 usPort )
{
m_usConnectionPort = usPort;
}
inline uint32 servernetadr_t::GetIP() const
{
return m_unIP;
}
inline void servernetadr_t::SetIP( uint32 unIP )
{
m_unIP = unIP;
}
inline const char *servernetadr_t::ToString( uint32 unIP, uint16 usPort ) const
{
static char s[4][64];
static int nBuf = 0;
unsigned char *ipByte = (unsigned char *)&unIP;
_snprintf (s[nBuf], sizeof( s[nBuf] ), "%u.%u.%u.%u:%i", (int)(ipByte[3]), (int)(ipByte[2]), (int)(ipByte[1]), (int)(ipByte[0]), usPort );
const char *pchRet = s[nBuf];
++nBuf;
nBuf %= ( (sizeof(s)/sizeof(s[0])) );
return pchRet;
}
inline const char* servernetadr_t::GetConnectionAddressString() const
{
return ToString( m_unIP, m_usConnectionPort );
}
inline const char* servernetadr_t::GetQueryAddressString() const
{
return ToString( m_unIP, m_usQueryPort );
}
inline bool servernetadr_t::operator<(const servernetadr_t &netadr) const
{
return ( m_unIP < netadr.m_unIP ) || ( m_unIP == netadr.m_unIP && m_usQueryPort < netadr.m_usQueryPort );
}
//-----------------------------------------------------------------------------
// Purpose: Data describing a single server
//-----------------------------------------------------------------------------
class gameserveritem_t
{
public:
gameserveritem_t();
const char* GetName() const;
void SetName( const char *pName );
public:
servernetadr_t m_NetAdr; // IP/Query Port/Connection Port for this server
int m_nPing; // current ping time in milliseconds
bool m_bHadSuccessfulResponse; // server has responded successfully in the past
bool m_bDoNotRefresh; // server is marked as not responding and should no longer be refreshed
char m_szGameDir[32]; // current game directory
char m_szMap[32]; // current map
char m_szGameDescription[64]; // game description
uint32 m_nAppID; // Steam App ID of this server
int m_nPlayers; // current number of players on the server
int m_nMaxPlayers; // Maximum players that can join this server
int m_nBotPlayers; // Number of bots (i.e simulated players) on this server
bool m_bPassword; // true if this server needs a password to join
bool m_bSecure; // Is this server protected by VAC
uint32 m_ulTimeLastPlayed; // time (in unix time) when this server was last played on (for favorite/history servers)
int m_nServerVersion; // server version as reported to Steam
private:
char m_szServerName[64]; // Game server name
// For data added after SteamMatchMaking001 add it here
public:
char m_szGameTags[128]; // the tags this server exposes
CSteamID m_steamID; // steamID of the game server - invalid if it's doesn't have one (old server, or not connected to Steam)
};
inline gameserveritem_t::gameserveritem_t()
{
m_szGameDir[0] = m_szMap[0] = m_szGameDescription[0] = m_szServerName[0] = 0;
m_bHadSuccessfulResponse = m_bDoNotRefresh = m_bPassword = m_bSecure = false;
m_nPing = m_nAppID = m_nPlayers = m_nMaxPlayers = m_nBotPlayers = m_ulTimeLastPlayed = m_nServerVersion = 0;
m_szGameTags[0] = 0;
}
inline const char* gameserveritem_t::GetName() const
{
// Use the IP address as the name if nothing is set yet.
if ( m_szServerName[0] == 0 )
return m_NetAdr.GetConnectionAddressString();
else
return m_szServerName;
}
inline void gameserveritem_t::SetName( const char *pName )
{
strncpy( m_szServerName, pName, sizeof( m_szServerName ) );
}
#endif // MATCHMAKINGTYPES_H

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//====== Copyright 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose:
//
//=============================================================================
#ifndef STEAM_API_H
#define STEAM_API_H
#ifdef _WIN32
#pragma once
#endif
#include "isteamclient.h"
#include "isteamuser.h"
#include "isteamfriends.h"
#include "isteamutils.h"
#include "isteammatchmaking.h"
#include "isteamuserstats.h"
#include "isteamapps.h"
#include "isteamnetworking.h"
#include "isteamremotestorage.h"
// Steam API export macro
#if defined( _WIN32 ) && !defined( _X360 )
#if defined( STEAM_API_EXPORTS )
#define S_API extern "C" __declspec( dllexport )
#elif defined( STEAM_API_NODLL )
#define S_API extern "C"
#else
#define S_API extern "C" __declspec( dllimport )
#endif // STEAM_API_EXPORTS
#elif defined( GNUC )
#if defined( STEAM_API_EXPORTS )
#define S_API extern "C" __attribute__ ((visibility("default")))
#else
#define S_API extern "C"
#endif // STEAM_API_EXPORTS
#else // !WIN32
#if defined( STEAM_API_EXPORTS )
#define S_API extern "C"
#else
#define S_API extern "C"
#endif // STEAM_API_EXPORTS
#endif
//----------------------------------------------------------------------------------------------------------------------------------------------------------//
// Steam API setup & shutdown
//
// These functions manage loading, initializing and shutdown of the steamclient.dll
//
//----------------------------------------------------------------------------------------------------------------------------------------------------------//
// S_API void SteamAPI_Init(); (see below)
S_API void SteamAPI_Shutdown();
// checks if a local Steam client is running
S_API bool SteamAPI_IsSteamRunning();
// Detects if your executable was launched through the Steam client, and restarts your game through
// the client if necessary. The Steam client will be started if it is not running.
//
// Returns: true if your executable was NOT launched through the Steam client. This function will
// then start your application through the client. Your current process should exit.
//
// false if your executable was started through the Steam client or a steam_appid.txt file
// is present in your game's directory (for development). Your current process should continue.
//
// NOTE: This function should be used only if you are using CEG or not using Steam's DRM. Once applied
// to your executable, Steam's DRM will handle restarting through Steam if necessary.
S_API bool SteamAPI_RestartAppIfNecessary( uint32 unOwnAppID );
// crash dump recording functions
S_API void SteamAPI_WriteMiniDump( uint32 uStructuredExceptionCode, void* pvExceptionInfo, uint32 uBuildID );
S_API void SteamAPI_SetMiniDumpComment( const char *pchMsg );
// this should be called before the game initialized the steam APIs
// pchDate should be of the format "Mmm dd yyyy" (such as from the __DATE__ macro )
// pchTime should be of the format "hh:mm:ss" (such as from the __TIME__ macro )
// bFullMemoryDumps (Win32 only) -- writes out a uuid-full.dmp in the client/dumps folder
// pvContext-- can be NULL, will be the void * context passed into m_pfnPreMinidumpCallback
// PFNPreMinidumpCallback m_pfnPreMinidumpCallback -- optional callback which occurs just before a .dmp file is written during a crash. Applications can hook this to allow adding additional information into the .dmp comment stream.
S_API void SteamAPI_UseBreakpadCrashHandler( char const *pchVersion, char const *pchDate, char const *pchTime, bool bFullMemoryDumps, void *pvContext, PFNPreMinidumpCallback m_pfnPreMinidumpCallback );
S_API void SteamAPI_SetBreakpadAppID( uint32 unAppID );
// interface pointers, configured by SteamAPI_Init()
S_API ISteamClient *SteamClient();
//----------------------------------------------------------------------------------------------------------------------------------------------------------//
// PlayStation 3 initialization parameters
//
// The following structure must be passed to when loading steam_api_ps3.prx
//----------------------------------------------------------------------------------------------------------------------------------------------------------//
#define STEAM_PS3_PATH_MAX 1055
#define STEAM_PS3_SERVICE_ID_MAX 32
struct SteamPS3Params_t
{
void *pReserved;
AppId_t m_nAppId;
char m_rgchInstallationPath[ STEAM_PS3_PATH_MAX ];
char m_rgchSystemCache[ STEAM_PS3_PATH_MAX ]; // temp working cache, not persistent
char m_rgchGameData[ STEAM_PS3_PATH_MAX ]; // persistent game data path for storing user data
char m_rgchNpServiceID[ STEAM_PS3_SERVICE_ID_MAX ];
// Should be SYS_TTYP3 through SYS_TTYP10, if it's 0 then Steam won't spawn a
// thread to read console input at all. Using this let's you use Steam console commands
// like: profile_on, profile_off, profile_dump, mem_stats, mem_validate.
unsigned int m_cSteamInputTTY;
struct Ps3netInit_t
{
bool m_bNeedInit;
bool m_bNeedInitEx;
void *m_pMemory;
int m_nMemorySize;
int m_flags;
} m_sysNetInitInfo;
struct Ps3jpgInit_t
{
bool m_bNeedInit;
} m_sysJpgInitInfo;
};
//
// VERSION_SAFE_STEAM_API_INTERFACES is usually not necessary, but it provides safety against releasing
// new steam_api.dll's without recompiling/rereleasing modules that use it.
//
// If you use VERSION_SAFE_STEAM_API_INTERFACES, then you should call SteamAPI_InitSafe(). Also, to get the
// Steam interfaces, you must create and Init() a CSteamAPIContext (below) and use the interfaces in there.
//
// If you don't use VERSION_SAFE_STEAM_API_INTERFACES, then you can use SteamAPI_Init() and the SteamXXXX()
// functions below to get at the Steam interfaces.
//
#ifdef VERSION_SAFE_STEAM_API_INTERFACES
S_API bool SteamAPI_InitSafe();
#else
#if defined(_PS3)
S_API bool SteamAPI_Init( SteamPS3Params_t *pParams );
#else
S_API bool SteamAPI_Init();
#endif
S_API ISteamUser *SteamUser();
S_API ISteamFriends *SteamFriends();
S_API ISteamUtils *SteamUtils();
S_API ISteamMatchmaking *SteamMatchmaking();
S_API ISteamUserStats *SteamUserStats();
S_API ISteamApps *SteamApps();
S_API ISteamNetworking *SteamNetworking();
S_API ISteamMatchmakingServers *SteamMatchmakingServers();
S_API ISteamRemoteStorage *SteamRemoteStorage();
#endif // VERSION_SAFE_STEAM_API_INTERFACES
//----------------------------------------------------------------------------------------------------------------------------------------------------------//
// steam callback helper functions
//
// The following classes/macros are used to be able to easily multiplex callbacks
// from the Steam API into various objects in the app in a thread-safe manner
//
// These functors are triggered via the SteamAPI_RunCallbacks() function, mapping the callback
// to as many functions/objects as are registered to it
//----------------------------------------------------------------------------------------------------------------------------------------------------------//
S_API void SteamAPI_RunCallbacks();
// functions used by the utility CCallback objects to receive callbacks
S_API void SteamAPI_RegisterCallback( class CCallbackBase *pCallback, int iCallback );
S_API void SteamAPI_UnregisterCallback( class CCallbackBase *pCallback );
// functions used by the utility CCallResult objects to receive async call results
S_API void SteamAPI_RegisterCallResult( class CCallbackBase *pCallback, SteamAPICall_t hAPICall );
S_API void SteamAPI_UnregisterCallResult( class CCallbackBase *pCallback, SteamAPICall_t hAPICall );
//-----------------------------------------------------------------------------
// Purpose: base for callbacks,
// used only by CCallback, shouldn't be used directly
//-----------------------------------------------------------------------------
class CCallbackBase
{
public:
CCallbackBase() { m_nCallbackFlags = 0; m_iCallback = 0; }
// don't add a virtual destructor because we export this binary interface across dll's
virtual void Run( void *pvParam ) = 0;
virtual void Run( void *pvParam, bool bIOFailure, SteamAPICall_t hSteamAPICall ) = 0;
int GetICallback() { return m_iCallback; }
virtual int GetCallbackSizeBytes() = 0;
protected:
enum { k_ECallbackFlagsRegistered = 0x01, k_ECallbackFlagsGameServer = 0x02 };
uint8 m_nCallbackFlags;
int m_iCallback;
friend class CCallbackMgr;
};
//-----------------------------------------------------------------------------
// Purpose: maps a steam async call result to a class member function
// template params: T = local class, P = parameter struct
//-----------------------------------------------------------------------------
template< class T, class P >
class CCallResult : private CCallbackBase
{
public:
typedef void (T::*func_t)( P*, bool );
CCallResult()
{
m_hAPICall = k_uAPICallInvalid;
m_pObj = NULL;
m_Func = NULL;
m_iCallback = P::k_iCallback;
}
void Set( SteamAPICall_t hAPICall, T *p, func_t func )
{
if ( m_hAPICall )
SteamAPI_UnregisterCallResult( this, m_hAPICall );
m_hAPICall = hAPICall;
m_pObj = p;
m_Func = func;
if ( hAPICall )
SteamAPI_RegisterCallResult( this, hAPICall );
}
bool IsActive() const
{
return ( m_hAPICall != k_uAPICallInvalid );
}
void Cancel()
{
if ( m_hAPICall != k_uAPICallInvalid )
{
SteamAPI_UnregisterCallResult( this, m_hAPICall );
m_hAPICall = k_uAPICallInvalid;
}
}
~CCallResult()
{
Cancel();
}
private:
virtual void Run( void *pvParam )
{
m_hAPICall = k_uAPICallInvalid; // caller unregisters for us
(m_pObj->*m_Func)( (P *)pvParam, false );
}
void Run( void *pvParam, bool bIOFailure, SteamAPICall_t hSteamAPICall )
{
if ( hSteamAPICall == m_hAPICall )
{
m_hAPICall = k_uAPICallInvalid; // caller unregisters for us
(m_pObj->*m_Func)( (P *)pvParam, bIOFailure );
}
}
int GetCallbackSizeBytes()
{
return sizeof( P );
}
SteamAPICall_t m_hAPICall;
T *m_pObj;
func_t m_Func;
};
//-----------------------------------------------------------------------------
// Purpose: maps a steam callback to a class member function
// template params: T = local class, P = parameter struct
//-----------------------------------------------------------------------------
template< class T, class P, bool bGameServer >
class CCallback : private CCallbackBase
{
public:
typedef void (T::*func_t)( P* );
// If you can't support constructing a callback with the correct parameters
// then uncomment the empty constructor below and manually call
// ::Register() for your object
// Or, just call the regular constructor with (NULL, NULL)
// CCallback() {}
// constructor for initializing this object in owner's constructor
CCallback( T *pObj, func_t func ) : m_pObj( pObj ), m_Func( func )
{
if ( pObj && func )
Register( pObj, func );
}
~CCallback()
{
if ( m_nCallbackFlags & k_ECallbackFlagsRegistered )
Unregister();
}
// manual registration of the callback
void Register( T *pObj, func_t func )
{
if ( !pObj || !func )
return;
if ( m_nCallbackFlags & k_ECallbackFlagsRegistered )
Unregister();
if ( bGameServer )
{
m_nCallbackFlags |= k_ECallbackFlagsGameServer;
}
m_pObj = pObj;
m_Func = func;
// SteamAPI_RegisterCallback sets k_ECallbackFlagsRegistered
SteamAPI_RegisterCallback( this, P::k_iCallback );
}
void Unregister()
{
// SteamAPI_UnregisterCallback removes k_ECallbackFlagsRegistered
SteamAPI_UnregisterCallback( this );
}
void SetGameserverFlag() { m_nCallbackFlags |= k_ECallbackFlagsGameServer; }
private:
virtual void Run( void *pvParam )
{
(m_pObj->*m_Func)( (P *)pvParam );
}
virtual void Run( void *pvParam, bool, SteamAPICall_t )
{
(m_pObj->*m_Func)( (P *)pvParam );
}
int GetCallbackSizeBytes()
{
return sizeof( P );
}
T *m_pObj;
func_t m_Func;
};
// Allows you to defer registration of the callback
template< class T, class P, bool bGameServer >
class CCallbackManual : public CCallback< T, P, bGameServer >
{
public:
CCallbackManual() : CCallback< T, P, bGameServer >( NULL, NULL ) {}
};
// utility macro for declaring the function and callback object together
#define STEAM_CALLBACK( thisclass, func, param, var ) CCallback< thisclass, param, false > var; void func( param *pParam )
// same as above, but lets you defer the callback binding by calling Register later
#define STEAM_CALLBACK_MANUAL( thisclass, func, param, var ) CCallbackManual< thisclass, param, false > var; void func( param *pParam )
#ifdef _WIN32
// disable this warning; this pattern need for steam callback registration
#pragma warning( disable: 4355 ) // 'this' : used in base member initializer list
#endif
//----------------------------------------------------------------------------------------------------------------------------------------------------------//
// steamclient.dll private wrapper functions
//
// The following functions are part of abstracting API access to the steamclient.dll, but should only be used in very specific cases
//----------------------------------------------------------------------------------------------------------------------------------------------------------//
// pumps out all the steam messages, calling the register callback
S_API void Steam_RunCallbacks( HSteamPipe hSteamPipe, bool bGameServerCallbacks );
// register the callback funcs to use to interact with the steam dll
S_API void Steam_RegisterInterfaceFuncs( void *hModule );
// returns the HSteamUser of the last user to dispatch a callback
S_API HSteamUser Steam_GetHSteamUserCurrent();
// returns the filename path of the current running Steam process, used if you need to load an explicit steam dll by name
S_API const char *SteamAPI_GetSteamInstallPath();
// returns the pipe we are communicating to Steam with
S_API HSteamPipe SteamAPI_GetHSteamPipe();
// sets whether or not Steam_RunCallbacks() should do a try {} catch (...) {} around calls to issuing callbacks
S_API void SteamAPI_SetTryCatchCallbacks( bool bTryCatchCallbacks );
// backwards compat export, passes through to SteamAPI_ variants
S_API HSteamPipe GetHSteamPipe();
S_API HSteamUser GetHSteamUser();
#ifdef VERSION_SAFE_STEAM_API_INTERFACES
//----------------------------------------------------------------------------------------------------------------------------------------------------------//
// VERSION_SAFE_STEAM_API_INTERFACES uses CSteamAPIContext to provide interfaces to each module in a way that
// lets them each specify the interface versions they are compiled with.
//
// It's important that these stay inlined in the header so the calling module specifies the interface versions
// for whatever Steam API version it has.
//----------------------------------------------------------------------------------------------------------------------------------------------------------//
S_API HSteamUser SteamAPI_GetHSteamUser();
class CSteamAPIContext
{
public:
CSteamAPIContext();
void Clear();
bool Init();
ISteamUser* SteamUser() { return m_pSteamUser; }
ISteamFriends* SteamFriends() { return m_pSteamFriends; }
ISteamUtils* SteamUtils() { return m_pSteamUtils; }
ISteamMatchmaking* SteamMatchmaking() { return m_pSteamMatchmaking; }
ISteamUserStats* SteamUserStats() { return m_pSteamUserStats; }
ISteamApps* SteamApps() { return m_pSteamApps; }
ISteamMatchmakingServers* SteamMatchmakingServers() { return m_pSteamMatchmakingServers; }
ISteamNetworking* SteamNetworking() { return m_pSteamNetworking; }
ISteamRemoteStorage* SteamRemoteStorage() { return m_pSteamRemoteStorage; }
private:
ISteamUser *m_pSteamUser;
ISteamFriends *m_pSteamFriends;
ISteamUtils *m_pSteamUtils;
ISteamMatchmaking *m_pSteamMatchmaking;
ISteamUserStats *m_pSteamUserStats;
ISteamApps *m_pSteamApps;
ISteamMatchmakingServers *m_pSteamMatchmakingServers;
ISteamNetworking *m_pSteamNetworking;
ISteamRemoteStorage *m_pSteamRemoteStorage;
};
inline CSteamAPIContext::CSteamAPIContext()
{
Clear();
}
inline void CSteamAPIContext::Clear()
{
m_pSteamUser = NULL;
m_pSteamFriends = NULL;
m_pSteamUtils = NULL;
m_pSteamMatchmaking = NULL;
m_pSteamUserStats = NULL;
m_pSteamApps = NULL;
m_pSteamMatchmakingServers = NULL;
m_pSteamNetworking = NULL;
m_pSteamRemoteStorage = NULL;
}
// This function must be inlined so the module using steam_api.dll gets the version names they want.
inline bool CSteamAPIContext::Init()
{
if ( !SteamClient() )
return false;
HSteamUser hSteamUser = SteamAPI_GetHSteamUser();
HSteamPipe hSteamPipe = SteamAPI_GetHSteamPipe();
m_pSteamUser = SteamClient()->GetISteamUser( hSteamUser, hSteamPipe, STEAMUSER_INTERFACE_VERSION );
if ( !m_pSteamUser )
return false;
m_pSteamFriends = SteamClient()->GetISteamFriends( hSteamUser, hSteamPipe, STEAMFRIENDS_INTERFACE_VERSION );
if ( !m_pSteamFriends )
return false;
m_pSteamUtils = SteamClient()->GetISteamUtils( hSteamPipe, STEAMUTILS_INTERFACE_VERSION );
if ( !m_pSteamUtils )
return false;
m_pSteamMatchmaking = SteamClient()->GetISteamMatchmaking( hSteamUser, hSteamPipe, STEAMMATCHMAKING_INTERFACE_VERSION );
if ( !m_pSteamMatchmaking )
return false;
m_pSteamMatchmakingServers = SteamClient()->GetISteamMatchmakingServers( hSteamUser, hSteamPipe, STEAMMATCHMAKINGSERVERS_INTERFACE_VERSION );
if ( !m_pSteamMatchmakingServers )
return false;
m_pSteamUserStats = SteamClient()->GetISteamUserStats( hSteamUser, hSteamPipe, STEAMUSERSTATS_INTERFACE_VERSION );
if ( !m_pSteamUserStats )
return false;
m_pSteamApps = SteamClient()->GetISteamApps( hSteamUser, hSteamPipe, STEAMAPPS_INTERFACE_VERSION );
if ( !m_pSteamApps )
return false;
m_pSteamNetworking = SteamClient()->GetISteamNetworking( hSteamUser, hSteamPipe, STEAMNETWORKING_INTERFACE_VERSION );
if ( !m_pSteamNetworking )
return false;
m_pSteamRemoteStorage = SteamClient()->GetISteamRemoteStorage( hSteamUser, hSteamPipe, STEAMREMOTESTORAGE_INTERFACE_VERSION );
if ( !m_pSteamRemoteStorage )
return false;
return true;
}
#endif // VERSION_SAFE_STEAM_API_INTERFACES
#endif // STEAM_API_H

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//====== Copyright © 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose:
//
//=============================================================================
#ifndef STEAM_GAMESERVER_H
#define STEAM_GAMESERVER_H
#ifdef _WIN32
#pragma once
#endif
#include "steam_api.h"
#include "isteamgameserver.h"
#include "isteammasterserverupdater.h"
#include "isteamgameserverstats.h"
enum EServerMode
{
eServerModeInvalid = 0, // DO NOT USE
eServerModeNoAuthentication = 1, // Don't authenticate user logins and don't list on the server list
eServerModeAuthentication = 2, // Authenticate users, list on the server list, don't run VAC on clients that connect
eServerModeAuthenticationAndSecure = 3, // Authenticate users, list on the server list and VAC protect clients
};
// Note: if you pass MASTERSERVERUPDATERPORT_USEGAMESOCKETSHARE for usQueryPort, then it will use "GameSocketShare" mode,
// which means that the game is responsible for sending and receiving UDP packets for the master
// server updater. See references to GameSocketShare in isteammasterserverupdater.h.
//
// Pass 0 for usGamePort or usSpectatorPort if you're not using that. Then, the master server updater will report
// what's running based on that.
#ifndef _PS3
#ifdef VERSION_SAFE_STEAM_API_INTERFACES
S_API bool SteamGameServer_InitSafe( uint32 unIP, uint16 usPort, uint16 usGamePort, uint16 usSpectatorPort, uint16 usQueryPort, EServerMode eServerMode, const char *pchGameDir, const char *pchVersionString );
#else
S_API bool SteamGameServer_Init( uint32 unIP, uint16 usPort, uint16 usGamePort, uint16 usSpectatorPort, uint16 usQueryPort, EServerMode eServerMode, const char *pchGameDir, const char *pchVersionString );
#endif
#else
#ifdef VERSION_SAFE_STEAM_API_INTERFACES
S_API bool SteamGameServer_InitSafe( const SteamPS3Params_t *ps3Params, uint32 unIP, uint16 usPort, uint16 usGamePort, uint16 usSpectatorPort, uint16 usQueryPort, EServerMode eServerMode, const char *pchGameDir, const char *pchVersionString );
#else
S_API bool SteamGameServer_Init( const SteamPS3Params_t *ps3Params, uint32 unIP, uint16 usPort, uint16 usGamePort, uint16 usSpectatorPort, uint16 usQueryPort, EServerMode eServerMode, const char *pchGameDir, const char *pchVersionString );
#endif
#endif
#ifndef VERSION_SAFE_STEAM_API_INTERFACES
S_API ISteamGameServer *SteamGameServer();
S_API ISteamUtils *SteamGameServerUtils();
S_API ISteamMasterServerUpdater *SteamMasterServerUpdater();
S_API ISteamNetworking *SteamGameServerNetworking();
S_API ISteamGameServerStats *SteamGameServerStats();
#endif
S_API void SteamGameServer_Shutdown();
S_API void SteamGameServer_RunCallbacks();
S_API bool SteamGameServer_BSecure();
S_API uint64 SteamGameServer_GetSteamID();
#define STEAM_GAMESERVER_CALLBACK( thisclass, func, param, var ) CCallback< thisclass, param, true > var; void func( param *pParam )
//----------------------------------------------------------------------------------------------------------------------------------------------------------//
// steamclient.dll private wrapper functions
//
// The following functions are part of abstracting API access to the steamclient.dll, but should only be used in very specific cases
//----------------------------------------------------------------------------------------------------------------------------------------------------------//
S_API HSteamPipe SteamGameServer_GetHSteamPipe();
#ifdef VERSION_SAFE_STEAM_API_INTERFACES
//----------------------------------------------------------------------------------------------------------------------------------------------------------//
// VERSION_SAFE_STEAM_API_INTERFACES uses CSteamAPIContext to provide interfaces to each module in a way that
// lets them each specify the interface versions they are compiled with.
//
// It's important that these stay inlined in the header so the calling module specifies the interface versions
// for whatever Steam API version it has.
//----------------------------------------------------------------------------------------------------------------------------------------------------------//
S_API HSteamUser SteamGameServer_GetHSteamUser();
class CSteamGameServerAPIContext
{
public:
CSteamGameServerAPIContext();
void Clear();
bool Init();
ISteamGameServer *SteamGameServer() { return m_pSteamGameServer; }
ISteamUtils *SteamGameServerUtils() { return m_pSteamGameServerUtils; }
ISteamMasterServerUpdater *SteamMasterServerUpdater() { return m_pSteamMasterServerUpdater; }
ISteamNetworking *SteamGameServerNetworking() { return m_pSteamGameServerNetworking; }
ISteamGameServerStats *SteamGameServerStats() { return m_pSteamGameServerStats; }
private:
ISteamGameServer *m_pSteamGameServer;
ISteamUtils *m_pSteamGameServerUtils;
ISteamMasterServerUpdater *m_pSteamMasterServerUpdater;
ISteamNetworking *m_pSteamGameServerNetworking;
ISteamGameServerStats *m_pSteamGameServerStats;
};
inline CSteamGameServerAPIContext::CSteamGameServerAPIContext()
{
Clear();
}
inline void CSteamGameServerAPIContext::Clear()
{
m_pSteamGameServer = NULL;
m_pSteamGameServerUtils = NULL;
m_pSteamMasterServerUpdater = NULL;
m_pSteamGameServerNetworking = NULL;
m_pSteamGameServerStats = NULL;
}
S_API ISteamClient *g_pSteamClientGameServer;
// This function must be inlined so the module using steam_api.dll gets the version names they want.
inline bool CSteamGameServerAPIContext::Init()
{
if ( !g_pSteamClientGameServer )
return false;
HSteamUser hSteamUser = SteamGameServer_GetHSteamUser();
HSteamPipe hSteamPipe = SteamGameServer_GetHSteamPipe();
m_pSteamGameServer = g_pSteamClientGameServer->GetISteamGameServer( hSteamUser, hSteamPipe, STEAMGAMESERVER_INTERFACE_VERSION );
if ( !m_pSteamGameServer )
return false;
m_pSteamGameServerUtils = g_pSteamClientGameServer->GetISteamUtils( hSteamPipe, STEAMUTILS_INTERFACE_VERSION );
if ( !m_pSteamGameServerUtils )
return false;
m_pSteamMasterServerUpdater = g_pSteamClientGameServer->GetISteamMasterServerUpdater( hSteamUser, hSteamPipe, STEAMMASTERSERVERUPDATER_INTERFACE_VERSION );
if ( !m_pSteamMasterServerUpdater )
return false;
m_pSteamGameServerNetworking = g_pSteamClientGameServer->GetISteamNetworking( hSteamUser, hSteamPipe, STEAMNETWORKING_INTERFACE_VERSION );
if ( !m_pSteamGameServerNetworking )
return false;
m_pSteamGameServerStats = g_pSteamClientGameServer->GetISteamGameServerStats( hSteamUser, hSteamPipe, STEAMGAMESERVERSTATS_INTERFACE_VERSION );
if ( !m_pSteamGameServerStats )
return false;
return true;
}
#endif // VERSION_SAFE_STEAM_API_INTERFACES
#endif // STEAM_GAMESERVER_H

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//========= Copyright <20> 1996-2008, Valve LLC, All rights reserved. ============
//
// Purpose:
//
//=============================================================================
#ifndef STEAMCLIENTPUBLIC_H
#define STEAMCLIENTPUBLIC_H
#ifdef _WIN32
#pragma once
#endif
//lint -save -e1931 -e1927 -e1924 -e613 -e726
// This header file defines the interface between the calling application and the code that
// knows how to communicate with the connection manager (CM) from the Steam service
// This header file is intended to be portable; ideally this 1 header file plus a lib or dll
// is all you need to integrate the client library into some other tree. So please avoid
// including or requiring other header files if possible. This header should only describe the
// interface layer, no need to include anything about the implementation.
#include "steamtypes.h"
// General result codes
enum EResult
{
k_EResultOK = 1, // success
k_EResultFail = 2, // generic failure
k_EResultNoConnection = 3, // no/failed network connection
// k_EResultNoConnectionRetry = 4, // OBSOLETE - removed
k_EResultInvalidPassword = 5, // password/ticket is invalid
k_EResultLoggedInElsewhere = 6, // same user logged in elsewhere
k_EResultInvalidProtocolVer = 7, // protocol version is incorrect
k_EResultInvalidParam = 8, // a parameter is incorrect
k_EResultFileNotFound = 9, // file was not found
k_EResultBusy = 10, // called method busy - action not taken
k_EResultInvalidState = 11, // called object was in an invalid state
k_EResultInvalidName = 12, // name is invalid
k_EResultInvalidEmail = 13, // email is invalid
k_EResultDuplicateName = 14, // name is not unique
k_EResultAccessDenied = 15, // access is denied
k_EResultTimeout = 16, // operation timed out
k_EResultBanned = 17, // VAC2 banned
k_EResultAccountNotFound = 18, // account not found
k_EResultInvalidSteamID = 19, // steamID is invalid
k_EResultServiceUnavailable = 20, // The requested service is currently unavailable
k_EResultNotLoggedOn = 21, // The user is not logged on
k_EResultPending = 22, // Request is pending (may be in process, or waiting on third party)
k_EResultEncryptionFailure = 23, // Encryption or Decryption failed
k_EResultInsufficientPrivilege = 24, // Insufficient privilege
k_EResultLimitExceeded = 25, // Too much of a good thing
k_EResultRevoked = 26, // Access has been revoked (used for revoked guest passes)
k_EResultExpired = 27, // License/Guest pass the user is trying to access is expired
k_EResultAlreadyRedeemed = 28, // Guest pass has already been redeemed by account, cannot be acked again
k_EResultDuplicateRequest = 29, // The request is a duplicate and the action has already occurred in the past, ignored this time
k_EResultAlreadyOwned = 30, // All the games in this guest pass redemption request are already owned by the user
k_EResultIPNotFound = 31, // IP address not found
k_EResultPersistFailed = 32, // failed to write change to the data store
k_EResultLockingFailed = 33, // failed to acquire access lock for this operation
k_EResultLogonSessionReplaced = 34,
k_EResultConnectFailed = 35,
k_EResultHandshakeFailed = 36,
k_EResultIOFailure = 37,
k_EResultRemoteDisconnect = 38,
k_EResultShoppingCartNotFound = 39, // failed to find the shopping cart requested
k_EResultBlocked = 40, // a user didn't allow it
k_EResultIgnored = 41, // target is ignoring sender
k_EResultNoMatch = 42, // nothing matching the request found
k_EResultAccountDisabled = 43,
k_EResultServiceReadOnly = 44, // this service is not accepting content changes right now
k_EResultAccountNotFeatured = 45, // account doesn't have value, so this feature isn't available
k_EResultAdministratorOK = 46, // allowed to take this action, but only because requester is admin
k_EResultContentVersion = 47, // A Version mismatch in content transmitted within the Steam protocol.
k_EResultTryAnotherCM = 48, // The current CM can't service the user making a request, user should try another.
k_EResultPasswordRequiredToKickSession = 49,// You are already logged in elsewhere, this cached credential login has failed.
k_EResultAlreadyLoggedInElsewhere = 50, // You are already logged in elsewhere, you must wait
k_EResultSuspended = 51, // Long running operation (content download) suspended/paused
k_EResultCancelled = 52, // Operation canceled (typically by user: content download)
k_EResultDataCorruption = 53, // Operation canceled because data is ill formed or unrecoverable
k_EResultDiskFull = 54, // Operation canceled - not enough disk space.
k_EResultRemoteCallFailed = 55, // an remote call or IPC call failed
k_EResultPasswordUnset = 56, // Password could not be verified as it's unset server side
k_EResultPSNAccountUnlinked = 57, // Attempt to logon from a PS3 failed because the PSN online id is not linked to a Steam account
k_EResultPSNTicketInvalid = 58, // PSN ticket was invalid
k_EResultPSNAccountAlreadyLinked = 59, // PSN account is already linked to some other account, must explicitly request to replace/delete the link first
k_EResultRemoteFileConflict = 60, // The sync cannot resume due to a conflict between the local and remote files
};
// Error codes for use with the voice functions
enum EVoiceResult
{
k_EVoiceResultOK = 0,
k_EVoiceResultNotInitialized = 1,
k_EVoiceResultNotRecording = 2,
k_EVoiceResultNoData = 3,
k_EVoiceResultBufferTooSmall = 4,
k_EVoiceResultDataCorrupted = 5,
k_EVoiceResultRestricted = 6,
};
// Result codes to GSHandleClientDeny/Kick
typedef enum
{
k_EDenyInvalid = 0,
k_EDenyInvalidVersion = 1,
k_EDenyGeneric = 2,
k_EDenyNotLoggedOn = 3,
k_EDenyNoLicense = 4,
k_EDenyCheater = 5,
k_EDenyLoggedInElseWhere = 6,
k_EDenyUnknownText = 7,
k_EDenyIncompatibleAnticheat = 8,
k_EDenyMemoryCorruption = 9,
k_EDenyIncompatibleSoftware = 10,
k_EDenySteamConnectionLost = 11,
k_EDenySteamConnectionError = 12,
k_EDenySteamResponseTimedOut = 13,
k_EDenySteamValidationStalled = 14,
k_EDenySteamOwnerLeftGuestUser = 15,
} EDenyReason;
// return type of GetAuthSessionTicket
typedef uint32 HAuthTicket;
const HAuthTicket k_HAuthTicketInvalid = 0;
// results from BeginAuthSession
typedef enum
{
k_EBeginAuthSessionResultOK = 0, // Ticket is valid for this game and this steamID.
k_EBeginAuthSessionResultInvalidTicket = 1, // Ticket is not valid.
k_EBeginAuthSessionResultDuplicateRequest = 2, // A ticket has already been submitted for this steamID
k_EBeginAuthSessionResultInvalidVersion = 3, // Ticket is from an incompatible interface version
k_EBeginAuthSessionResultGameMismatch = 4, // Ticket is not for this game
k_EBeginAuthSessionResultExpiredTicket = 5, // Ticket has expired
} EBeginAuthSessionResult;
// Callback values for callback ValidateAuthTicketResponse_t which is a response to BeginAuthSession
typedef enum
{
k_EAuthSessionResponseOK = 0, // Steam has verified the user is online, the ticket is valid and ticket has not been reused.
k_EAuthSessionResponseUserNotConnectedToSteam = 1, // The user in question is not connected to steam
k_EAuthSessionResponseNoLicenseOrExpired = 2, // The license has expired.
k_EAuthSessionResponseVACBanned = 3, // The user is VAC banned for this game.
k_EAuthSessionResponseLoggedInElseWhere = 4, // The user account has logged in elsewhere and the session containing the game instance has been disconnected.
k_EAuthSessionResponseVACCheckTimedOut = 5, // VAC has been unable to perform anti-cheat checks on this user
k_EAuthSessionResponseAuthTicketCanceled = 6, // The ticket has been canceled by the issuer
k_EAuthSessionResponseAuthTicketInvalidAlreadyUsed = 7, // This ticket has already been used, it is not valid.
k_EAuthSessionResponseAuthTicketInvalid = 8, // This ticket is not from a user instance currently connected to steam.
} EAuthSessionResponse;
// results from UserHasLicenseForApp
typedef enum
{
k_EUserHasLicenseResultHasLicense = 0, // User has a license for specified app
k_EUserHasLicenseResultDoesNotHaveLicense = 1, // User does not have a license for the specified app
k_EUserHasLicenseResultNoAuth = 2, // User has not been authenticated
} EUserHasLicenseForAppResult;
// Steam universes. Each universe is a self-contained Steam instance.
enum EUniverse
{
k_EUniverseInvalid = 0,
k_EUniversePublic = 1,
k_EUniverseBeta = 2,
k_EUniverseInternal = 3,
k_EUniverseDev = 4,
k_EUniverseRC = 5,
k_EUniverseMax
};
// Steam account types
enum EAccountType
{
k_EAccountTypeInvalid = 0,
k_EAccountTypeIndividual = 1, // single user account
k_EAccountTypeMultiseat = 2, // multiseat (e.g. cybercafe) account
k_EAccountTypeGameServer = 3, // game server account
k_EAccountTypeAnonGameServer = 4, // anonymous game server account
k_EAccountTypePending = 5, // pending
k_EAccountTypeContentServer = 6, // content server
k_EAccountTypeClan = 7,
k_EAccountTypeChat = 8,
// k_EAccountTypeP2PSuperSeeder = 9, // unused
k_EAccountTypeAnonUser = 10,
// Max of 16 items in this field
k_EAccountTypeMax
};
//-----------------------------------------------------------------------------
// types of user game stats fields
// WARNING: DO NOT RENUMBER EXISTING VALUES - STORED IN DATABASE
//-----------------------------------------------------------------------------
enum ESteamUserStatType
{
k_ESteamUserStatTypeINVALID = 0,
k_ESteamUserStatTypeINT = 1,
k_ESteamUserStatTypeFLOAT = 2,
// Read as FLOAT, set with count / session length
k_ESteamUserStatTypeAVGRATE = 3,
k_ESteamUserStatTypeACHIEVEMENTS = 4,
k_ESteamUserStatTypeGROUPACHIEVEMENTS = 5,
// max, for sanity checks
k_ESteamUserStatTypeMAX
};
//-----------------------------------------------------------------------------
// Purpose: Chat Entry Types (previously was only friend-to-friend message types)
//-----------------------------------------------------------------------------
enum EChatEntryType
{
k_EChatEntryTypeInvalid = 0,
k_EChatEntryTypeChatMsg = 1, // Normal text message from another user
k_EChatEntryTypeTyping = 2, // Another user is typing (not used in multi-user chat)
k_EChatEntryTypeInviteGame = 3, // Invite from other user into that users current game
k_EChatEntryTypeEmote = 4, // text emote message
k_EChatEntryTypeLobbyGameStart = 5, // lobby game is starting
k_EChatEntryTypeLeftConversation = 6, // user has left the conversation ( closed chat window )
// Above are previous FriendMsgType entries, now merged into more generic chat entry types
};
//-----------------------------------------------------------------------------
// Purpose: Chat Room Enter Responses
//-----------------------------------------------------------------------------
enum EChatRoomEnterResponse
{
k_EChatRoomEnterResponseSuccess = 1, // Success
k_EChatRoomEnterResponseDoesntExist = 2, // Chat doesn't exist (probably closed)
k_EChatRoomEnterResponseNotAllowed = 3, // General Denied - You don't have the permissions needed to join the chat
k_EChatRoomEnterResponseFull = 4, // Chat room has reached its maximum size
k_EChatRoomEnterResponseError = 5, // Unexpected Error
k_EChatRoomEnterResponseBanned = 6, // You are banned from this chat room and may not join
k_EChatRoomEnterResponseLimited = 7, // Joining this chat is not allowed because you are a limited user (no value on account)
k_EChatRoomEnterResponseClanDisabled = 8, // Attempt to join a clan chat when the clan is locked or disabled
k_EChatRoomEnterResponseCommunityBan = 9, // Attempt to join a chat when the user has a community lock on their account
};
//-----------------------------------------------------------------------------
// Purpose: Status of a given depot version, these are stored in the DB, don't renumber
//-----------------------------------------------------------------------------
enum EStatusDepotVersion
{
k_EStatusDepotVersionInvalid = 0,
k_EStatusDepotVersionDisabled = 1, // version was disabled, no manifest & content available
k_EStatusDepotVersionAvailable = 2, // manifest & content is available, but not current
k_EStatusDepotVersionCurrent = 3, // current depot version. The can be multiple, one for public and one for each beta key
};
typedef void (*PFNLegacyKeyRegistration)( const char *pchCDKey, const char *pchInstallPath );
typedef bool (*PFNLegacyKeyInstalled)();
const int k_unSteamAccountIDMask = 0xFFFFFFFF;
const int k_unSteamAccountInstanceMask = 0x000FFFFF;
// Special flags for Chat accounts - they go in the top 8 bits
// of the steam ID's "instance", leaving 12 for the actual instances
enum EChatSteamIDInstanceFlags
{
k_EChatAccountInstanceMask = 0x00000FFF, // top 8 bits are flags
k_EChatInstanceFlagClan = ( k_unSteamAccountInstanceMask + 1 ) >> 1, // top bit
k_EChatInstanceFlagLobby = ( k_unSteamAccountInstanceMask + 1 ) >> 2, // next one down, etc
k_EChatInstanceFlagMMSLobby = ( k_unSteamAccountInstanceMask + 1 ) >> 3, // next one down, etc
// Max of 8 flags
};
//-----------------------------------------------------------------------------
// Purpose: Marketing message flags that change how a client should handle them
//-----------------------------------------------------------------------------
enum EMarketingMessageFlags
{
k_EMarketingMessageFlagsNone = 0,
k_EMarketingMessageFlagsHighPriority = 1 << 0,
k_EMarketingMessageFlagsPlatformWindows = 1 << 1,
k_EMarketingMessageFlagsPlatformMac = 1 << 2,
//aggregate flags
k_EMarketingMessageFlagsPlatformRestrictions =
k_EMarketingMessageFlagsPlatformWindows | k_EMarketingMessageFlagsPlatformMac,
};
//-----------------------------------------------------------------------------
// Purpose: Possible positions to tell the overlay to show notifications in
//-----------------------------------------------------------------------------
enum ENotificationPosition
{
k_EPositionTopLeft = 0,
k_EPositionTopRight = 1,
k_EPositionBottomLeft = 2,
k_EPositionBottomRight = 3,
};
#pragma pack( push, 1 )
// Steam ID structure (64 bits total)
class CSteamID
{
public:
//-----------------------------------------------------------------------------
// Purpose: Constructor
//-----------------------------------------------------------------------------
CSteamID()
{
m_steamid.m_comp.m_unAccountID = 0;
m_steamid.m_comp.m_EAccountType = k_EAccountTypeInvalid;
m_steamid.m_comp.m_EUniverse = k_EUniverseInvalid;
m_steamid.m_comp.m_unAccountInstance = 0;
}
//-----------------------------------------------------------------------------
// Purpose: Constructor
// Input : unAccountID - 32-bit account ID
// eUniverse - Universe this account belongs to
// eAccountType - Type of account
//-----------------------------------------------------------------------------
CSteamID( uint32 unAccountID, EUniverse eUniverse, EAccountType eAccountType )
{
Set( unAccountID, eUniverse, eAccountType );
}
//-----------------------------------------------------------------------------
// Purpose: Constructor
// Input : unAccountID - 32-bit account ID
// unAccountInstance - instance
// eUniverse - Universe this account belongs to
// eAccountType - Type of account
//-----------------------------------------------------------------------------
CSteamID( uint32 unAccountID, unsigned int unAccountInstance, EUniverse eUniverse, EAccountType eAccountType )
{
#if defined(_SERVER) && defined(Assert)
Assert( ! ( ( k_EAccountTypeIndividual == eAccountType ) && ( 1 != unAccountInstance ) ) ); // enforce that for individual accounts, instance is always 1
#endif // _SERVER
InstancedSet( unAccountID, unAccountInstance, eUniverse, eAccountType );
}
//-----------------------------------------------------------------------------
// Purpose: Constructor
// Input : ulSteamID - 64-bit representation of a Steam ID
// Note: Will not accept a uint32 or int32 as input, as that is a probable mistake.
// See the stubbed out overloads in the private: section for more info.
//-----------------------------------------------------------------------------
CSteamID( uint64 ulSteamID )
{
SetFromUint64( ulSteamID );
}
//-----------------------------------------------------------------------------
// Purpose: Sets parameters for steam ID
// Input : unAccountID - 32-bit account ID
// eUniverse - Universe this account belongs to
// eAccountType - Type of account
//-----------------------------------------------------------------------------
void Set( uint32 unAccountID, EUniverse eUniverse, EAccountType eAccountType )
{
m_steamid.m_comp.m_unAccountID = unAccountID;
m_steamid.m_comp.m_EUniverse = eUniverse;
m_steamid.m_comp.m_EAccountType = eAccountType;
if ( eAccountType == k_EAccountTypeClan )
{
m_steamid.m_comp.m_unAccountInstance = 0;
}
else
{
m_steamid.m_comp.m_unAccountInstance = 1;
}
}
//-----------------------------------------------------------------------------
// Purpose: Sets parameters for steam ID
// Input : unAccountID - 32-bit account ID
// eUniverse - Universe this account belongs to
// eAccountType - Type of account
//-----------------------------------------------------------------------------
void InstancedSet( uint32 unAccountID, uint32 unInstance, EUniverse eUniverse, EAccountType eAccountType )
{
m_steamid.m_comp.m_unAccountID = unAccountID;
m_steamid.m_comp.m_EUniverse = eUniverse;
m_steamid.m_comp.m_EAccountType = eAccountType;
m_steamid.m_comp.m_unAccountInstance = unInstance;
}
//-----------------------------------------------------------------------------
// Purpose: Initializes a steam ID from its 52 bit parts and universe/type
// Input : ulIdentifier - 52 bits of goodness
//-----------------------------------------------------------------------------
void FullSet( uint64 ulIdentifier, EUniverse eUniverse, EAccountType eAccountType )
{
m_steamid.m_comp.m_unAccountID = ( ulIdentifier & 0xFFFFFFFF ); // account ID is low 32 bits
m_steamid.m_comp.m_unAccountInstance = ( ( ulIdentifier >> 32 ) & 0xFFFFF ); // account instance is next 20 bits
m_steamid.m_comp.m_EUniverse = eUniverse;
m_steamid.m_comp.m_EAccountType = eAccountType;
}
//-----------------------------------------------------------------------------
// Purpose: Initializes a steam ID from its 64-bit representation
// Input : ulSteamID - 64-bit representation of a Steam ID
//-----------------------------------------------------------------------------
void SetFromUint64( uint64 ulSteamID )
{
m_steamid.m_unAll64Bits = ulSteamID;
}
#if defined( INCLUDED_STEAM_COMMON_STEAMCOMMON_H )
//-----------------------------------------------------------------------------
// Purpose: Initializes a steam ID from a Steam2 ID structure
// Input: pTSteamGlobalUserID - Steam2 ID to convert
// eUniverse - universe this ID belongs to
//-----------------------------------------------------------------------------
void SetFromSteam2( TSteamGlobalUserID *pTSteamGlobalUserID, EUniverse eUniverse )
{
m_steamid.m_comp.m_unAccountID = pTSteamGlobalUserID->m_SteamLocalUserID.Split.Low32bits * 2 +
pTSteamGlobalUserID->m_SteamLocalUserID.Split.High32bits;
m_steamid.m_comp.m_EUniverse = eUniverse; // set the universe
m_steamid.m_comp.m_EAccountType = k_EAccountTypeIndividual; // Steam 2 accounts always map to account type of individual
m_steamid.m_comp.m_unAccountInstance = 1; // individual accounts always have an account instance ID of 1
}
//-----------------------------------------------------------------------------
// Purpose: Fills out a Steam2 ID structure
// Input: pTSteamGlobalUserID - Steam2 ID to write to
//-----------------------------------------------------------------------------
void ConvertToSteam2( TSteamGlobalUserID *pTSteamGlobalUserID ) const
{
// only individual accounts have any meaning in Steam 2, only they can be mapped
// Assert( m_steamid.m_comp.m_EAccountType == k_EAccountTypeIndividual );
pTSteamGlobalUserID->m_SteamInstanceID = 0;
pTSteamGlobalUserID->m_SteamLocalUserID.Split.High32bits = m_steamid.m_comp.m_unAccountID % 2;
pTSteamGlobalUserID->m_SteamLocalUserID.Split.Low32bits = m_steamid.m_comp.m_unAccountID / 2;
}
#endif // defined( INCLUDED_STEAM_COMMON_STEAMCOMMON_H )
//-----------------------------------------------------------------------------
// Purpose: Converts steam ID to its 64-bit representation
// Output : 64-bit representation of a Steam ID
//-----------------------------------------------------------------------------
uint64 ConvertToUint64() const
{
return m_steamid.m_unAll64Bits;
}
//-----------------------------------------------------------------------------
// Purpose: Converts the static parts of a steam ID to a 64-bit representation.
// For multiseat accounts, all instances of that account will have the
// same static account key, so they can be grouped together by the static
// account key.
// Output : 64-bit static account key
//-----------------------------------------------------------------------------
uint64 GetStaticAccountKey() const
{
// note we do NOT include the account instance (which is a dynamic property) in the static account key
return (uint64) ( ( ( (uint64) m_steamid.m_comp.m_EUniverse ) << 56 ) + ((uint64) m_steamid.m_comp.m_EAccountType << 52 ) + m_steamid.m_comp.m_unAccountID );
}
//-----------------------------------------------------------------------------
// Purpose: create an anonymous game server login to be filled in by the AM
//-----------------------------------------------------------------------------
void CreateBlankAnonLogon( EUniverse eUniverse )
{
m_steamid.m_comp.m_unAccountID = 0;
m_steamid.m_comp.m_EAccountType = k_EAccountTypeAnonGameServer;
m_steamid.m_comp.m_EUniverse = eUniverse;
m_steamid.m_comp.m_unAccountInstance = 0;
}
//-----------------------------------------------------------------------------
// Purpose: create an anonymous game server login to be filled in by the AM
//-----------------------------------------------------------------------------
void CreateBlankAnonUserLogon( EUniverse eUniverse )
{
m_steamid.m_comp.m_unAccountID = 0;
m_steamid.m_comp.m_EAccountType = k_EAccountTypeAnonUser;
m_steamid.m_comp.m_EUniverse = eUniverse;
m_steamid.m_comp.m_unAccountInstance = 0;
}
//-----------------------------------------------------------------------------
// Purpose: Is this an anonymous game server login that will be filled in?
//-----------------------------------------------------------------------------
bool BBlankAnonAccount() const
{
return m_steamid.m_comp.m_unAccountID == 0 && BAnonAccount() && m_steamid.m_comp.m_unAccountInstance == 0;
}
//-----------------------------------------------------------------------------
// Purpose: Is this a game server account id?
//-----------------------------------------------------------------------------
bool BGameServerAccount() const
{
return m_steamid.m_comp.m_EAccountType == k_EAccountTypeGameServer || m_steamid.m_comp.m_EAccountType == k_EAccountTypeAnonGameServer;
}
//-----------------------------------------------------------------------------
// Purpose: Is this a content server account id?
//-----------------------------------------------------------------------------
bool BContentServerAccount() const
{
return m_steamid.m_comp.m_EAccountType == k_EAccountTypeContentServer;
}
//-----------------------------------------------------------------------------
// Purpose: Is this a clan account id?
//-----------------------------------------------------------------------------
bool BClanAccount() const
{
return m_steamid.m_comp.m_EAccountType == k_EAccountTypeClan;
}
//-----------------------------------------------------------------------------
// Purpose: Is this a chat account id?
//-----------------------------------------------------------------------------
bool BChatAccount() const
{
return m_steamid.m_comp.m_EAccountType == k_EAccountTypeChat;
}
//-----------------------------------------------------------------------------
// Purpose: Is this a chat account id?
//-----------------------------------------------------------------------------
bool IsLobby() const
{
return ( m_steamid.m_comp.m_EAccountType == k_EAccountTypeChat )
&& ( m_steamid.m_comp.m_unAccountInstance & k_EChatInstanceFlagLobby );
}
//-----------------------------------------------------------------------------
// Purpose: Is this an individual user account id?
//-----------------------------------------------------------------------------
bool BIndividualAccount() const
{
return m_steamid.m_comp.m_EAccountType == k_EAccountTypeIndividual;
}
//-----------------------------------------------------------------------------
// Purpose: Is this an anonymous account?
//-----------------------------------------------------------------------------
bool BAnonAccount() const
{
return m_steamid.m_comp.m_EAccountType == k_EAccountTypeAnonUser || m_steamid.m_comp.m_EAccountType == k_EAccountTypeAnonGameServer;
}
//-----------------------------------------------------------------------------
// Purpose: Is this an anonymous user account? ( used to create an account or reset a password )
//-----------------------------------------------------------------------------
bool BAnonUserAccount() const
{
return m_steamid.m_comp.m_EAccountType == k_EAccountTypeAnonUser;
}
// simple accessors
void SetAccountID( uint32 unAccountID ) { m_steamid.m_comp.m_unAccountID = unAccountID; }
uint32 GetAccountID() const { return m_steamid.m_comp.m_unAccountID; }
uint32 GetUnAccountInstance() const { return m_steamid.m_comp.m_unAccountInstance; }
EAccountType GetEAccountType() const { return ( EAccountType ) m_steamid.m_comp.m_EAccountType; }
EUniverse GetEUniverse() const { return m_steamid.m_comp.m_EUniverse; }
void SetEUniverse( EUniverse eUniverse ) { m_steamid.m_comp.m_EUniverse = eUniverse; }
bool IsValid() const;
// this set of functions is hidden, will be moved out of class
explicit CSteamID( const char *pchSteamID, EUniverse eDefaultUniverse = k_EUniverseInvalid );
const char * Render() const; // renders this steam ID to string
static const char * Render( uint64 ulSteamID ); // static method to render a uint64 representation of a steam ID to a string
void SetFromString( const char *pchSteamID, EUniverse eDefaultUniverse );
bool SetFromSteam2String( const char *pchSteam2ID, EUniverse eUniverse );
inline bool operator==( const CSteamID &val ) const { return m_steamid.m_unAll64Bits == val.m_steamid.m_unAll64Bits; }
inline bool operator!=( const CSteamID &val ) const { return !operator==( val ); }
inline bool operator<( const CSteamID &val ) const { return m_steamid.m_unAll64Bits < val.m_steamid.m_unAll64Bits; }
inline bool operator>( const CSteamID &val ) const { return m_steamid.m_unAll64Bits > val.m_steamid.m_unAll64Bits; }
// DEBUG function
bool BValidExternalSteamID() const;
private:
// These are defined here to prevent accidental implicit conversion of a u32AccountID to a CSteamID.
// If you get a compiler error about an ambiguous constructor/function then it may be because you're
// passing a 32-bit int to a function that takes a CSteamID. You should explicitly create the SteamID
// using the correct Universe and account Type/Instance values.
CSteamID( uint32 );
CSteamID( int32 );
// 64 bits total
union SteamID_t
{
struct SteamIDComponent_t
{
#ifdef VALVE_BIG_ENDIAN
EUniverse m_EUniverse : 8; // universe this account belongs to
unsigned int m_EAccountType : 4; // type of account - can't show as EAccountType, due to signed / unsigned difference
unsigned int m_unAccountInstance : 20; // dynamic instance ID (used for multiseat type accounts only)
uint32 m_unAccountID : 32; // unique account identifier
#else
uint32 m_unAccountID : 32; // unique account identifier
unsigned int m_unAccountInstance : 20; // dynamic instance ID (used for multiseat type accounts only)
unsigned int m_EAccountType : 4; // type of account - can't show as EAccountType, due to signed / unsigned difference
EUniverse m_EUniverse : 8; // universe this account belongs to
#endif
} m_comp;
uint64 m_unAll64Bits;
} m_steamid;
};
inline bool CSteamID::IsValid() const
{
if ( m_steamid.m_comp.m_EAccountType <= k_EAccountTypeInvalid || m_steamid.m_comp.m_EAccountType >= k_EAccountTypeMax )
return false;
if ( m_steamid.m_comp.m_EUniverse <= k_EUniverseInvalid || m_steamid.m_comp.m_EUniverse >= k_EUniverseMax )
return false;
if ( m_steamid.m_comp.m_EAccountType == k_EAccountTypeIndividual )
{
if ( m_steamid.m_comp.m_unAccountID == 0 || m_steamid.m_comp.m_unAccountInstance != 1 )
return false;
}
if ( m_steamid.m_comp.m_EAccountType == k_EAccountTypeClan )
{
if ( m_steamid.m_comp.m_unAccountID == 0 || m_steamid.m_comp.m_unAccountInstance != 0 )
return false;
}
return true;
}
// generic invalid CSteamID
#define k_steamIDNil CSteamID()
// This steamID comes from a user game connection to an out of date GS that hasnt implemented the protocol
// to provide its steamID
#define k_steamIDOutofDateGS CSteamID( 0, 0, k_EUniverseInvalid, k_EAccountTypeInvalid )
// This steamID comes from a user game connection to an sv_lan GS
#define k_steamIDLanModeGS CSteamID( 0, 0, k_EUniversePublic, k_EAccountTypeInvalid )
// This steamID can come from a user game connection to a GS that has just booted but hasnt yet even initialized
// its steam3 component and started logging on.
#define k_steamIDNotInitYetGS CSteamID( 1, 0, k_EUniverseInvalid, k_EAccountTypeInvalid )
// This steamID can come from a user game connection to a GS that isn't using the steam authentication system but still
// wants to support the "Join Game" option in the friends list
#define k_steamIDNonSteamGS CSteamID( 2, 0, k_EUniverseInvalid, k_EAccountTypeInvalid )
#ifdef STEAM
// Returns the matching chat steamID, with the default instance of 0
// If the steamID passed in is already of type k_EAccountTypeChat it will be returned with the same instance
CSteamID ChatIDFromSteamID( const CSteamID &steamID );
// Returns the matching clan steamID, with the default instance of 0
// If the steamID passed in is already of type k_EAccountTypeClan it will be returned with the same instance
CSteamID ClanIDFromSteamID( const CSteamID &steamID );
// Asserts steamID type before conversion
CSteamID ChatIDFromClanID( const CSteamID &steamIDClan );
// Asserts steamID type before conversion
CSteamID ClanIDFromChatID( const CSteamID &steamIDChat );
#endif // _STEAM
//-----------------------------------------------------------------------------
// Purpose: encapsulates an appID/modID pair
//-----------------------------------------------------------------------------
class CGameID
{
public:
CGameID()
{
m_gameID.m_nType = k_EGameIDTypeApp;
m_gameID.m_nAppID = k_uAppIdInvalid;
m_gameID.m_nModID = 0;
}
explicit CGameID( uint64 ulGameID )
{
m_ulGameID = ulGameID;
}
explicit CGameID( int32 nAppID )
{
m_ulGameID = 0;
m_gameID.m_nAppID = nAppID;
}
explicit CGameID( uint32 nAppID )
{
m_ulGameID = 0;
m_gameID.m_nAppID = nAppID;
}
CGameID( uint32 nAppID, uint32 nModID )
{
m_ulGameID = 0;
m_gameID.m_nAppID = nAppID;
m_gameID.m_nModID = nModID;
m_gameID.m_nType = k_EGameIDTypeGameMod;
}
// Hidden functions used only by Steam
explicit CGameID( const char *pchGameID );
const char *Render() const; // render this Game ID to string
static const char *Render( uint64 ulGameID ); // static method to render a uint64 representation of a Game ID to a string
// must include checksum_crc.h first to get this functionality
#if defined( CHECKSUM_CRC_H )
CGameID( uint32 nAppID, const char *pchModPath )
{
m_ulGameID = 0;
m_gameID.m_nAppID = nAppID;
m_gameID.m_nType = k_EGameIDTypeGameMod;
char rgchModDir[MAX_PATH];
Q_FileBase( pchModPath, rgchModDir, sizeof( rgchModDir ) );
CRC32_t crc32;
CRC32_Init( &crc32 );
CRC32_ProcessBuffer( &crc32, rgchModDir, Q_strlen( rgchModDir ) );
CRC32_Final( &crc32 );
// set the high-bit on the mod-id
// reduces crc32 to 31bits, but lets us use the modID as a guaranteed unique
// replacement for appID's
m_gameID.m_nModID = crc32 | (0x80000000);
}
CGameID( const char *pchExePath, const char *pchAppName )
{
m_ulGameID = 0;
m_gameID.m_nAppID = k_uAppIdInvalid;
m_gameID.m_nType = k_EGameIDTypeShortcut;
CRC32_t crc32;
CRC32_Init( &crc32 );
CRC32_ProcessBuffer( &crc32, pchExePath, Q_strlen( pchExePath ) );
CRC32_ProcessBuffer( &crc32, pchAppName, Q_strlen( pchAppName ) );
CRC32_Final( &crc32 );
// set the high-bit on the mod-id
// reduces crc32 to 31bits, but lets us use the modID as a guaranteed unique
// replacement for appID's
m_gameID.m_nModID = crc32 | (0x80000000);
}
#if defined( VSTFILEID_H )
CGameID( VstFileID vstFileID )
{
m_ulGameID = 0;
m_gameID.m_nAppID = k_uAppIdInvalid;
m_gameID.m_nType = k_EGameIDTypeP2P;
CRC32_t crc32;
CRC32_Init( &crc32 );
const char *pchFileId = vstFileID.Render();
CRC32_ProcessBuffer( &crc32, pchFileId, Q_strlen( pchFileId ) );
CRC32_Final( &crc32 );
// set the high-bit on the mod-id
// reduces crc32 to 31bits, but lets us use the modID as a guaranteed unique
// replacement for appID's
m_gameID.m_nModID = crc32 | (0x80000000);
}
#endif /* VSTFILEID_H */
#endif /* CHECKSUM_CRC_H */
uint64 ToUint64() const
{
return m_ulGameID;
}
uint64 *GetUint64Ptr()
{
return &m_ulGameID;
}
void Set( uint64 ulGameID )
{
m_ulGameID = ulGameID;
}
bool IsMod() const
{
return ( m_gameID.m_nType == k_EGameIDTypeGameMod );
}
bool IsShortcut() const
{
return ( m_gameID.m_nType == k_EGameIDTypeShortcut );
}
bool IsP2PFile() const
{
return ( m_gameID.m_nType == k_EGameIDTypeP2P );
}
bool IsSteamApp() const
{
return ( m_gameID.m_nType == k_EGameIDTypeApp );
}
uint32 ModID() const
{
return m_gameID.m_nModID;
}
uint32 AppID() const
{
return m_gameID.m_nAppID;
}
bool operator == ( const CGameID &rhs ) const
{
return m_ulGameID == rhs.m_ulGameID;
}
bool operator != ( const CGameID &rhs ) const
{
return !(*this == rhs);
}
bool operator < ( const CGameID &rhs ) const
{
return ( m_ulGameID < rhs.m_ulGameID );
}
bool IsValid() const
{
// each type has it's own invalid fixed point:
switch( m_gameID.m_nType )
{
case k_EGameIDTypeApp:
return m_gameID.m_nAppID != k_uAppIdInvalid;
case k_EGameIDTypeGameMod:
return m_gameID.m_nAppID != k_uAppIdInvalid && m_gameID.m_nModID & 0x80000000;
case k_EGameIDTypeShortcut:
return (m_gameID.m_nModID & 0x80000000) != 0;
case k_EGameIDTypeP2P:
return m_gameID.m_nAppID == k_uAppIdInvalid && m_gameID.m_nModID & 0x80000000;
default:
#if defined(Assert)
Assert(false);
#endif
return false;
}
}
void Reset()
{
m_ulGameID = 0;
}
private:
enum EGameIDType
{
k_EGameIDTypeApp = 0,
k_EGameIDTypeGameMod = 1,
k_EGameIDTypeShortcut = 2,
k_EGameIDTypeP2P = 3,
};
struct GameID_t
{
#ifdef VALVE_BIG_ENDIAN
unsigned int m_nModID : 32;
unsigned int m_nType : 8;
unsigned int m_nAppID : 24;
#else
unsigned int m_nAppID : 24;
unsigned int m_nType : 8;
unsigned int m_nModID : 32;
#endif
};
union
{
uint64 m_ulGameID;
GameID_t m_gameID;
};
};
#pragma pack( pop )
const int k_cchGameExtraInfoMax = 64;
//-----------------------------------------------------------------------------
// Constants used for query ports.
//-----------------------------------------------------------------------------
#define QUERY_PORT_NOT_INITIALIZED 0xFFFF // We haven't asked the GS for this query port's actual value yet.
#define QUERY_PORT_ERROR 0xFFFE // We were unable to get the query port for this server.
//-----------------------------------------------------------------------------
// Purpose: Passed as argument to SteamAPI_UseBreakpadCrashHandler to enable optional callback
// just before minidump file is captured after a crash has occurred. (Allows app to append additional comment data to the dump, etc.)
//-----------------------------------------------------------------------------
typedef void (*PFNPreMinidumpCallback)(void *context);
//-----------------------------------------------------------------------------
// Purpose: Used by ICrashHandler interfaces to reference particular installed crash handlers
//-----------------------------------------------------------------------------
typedef void *BREAKPAD_HANDLE;
#define BREAKPAD_INVALID_HANDLE (BREAKPAD_HANDLE)0
#endif // STEAMCLIENTPUBLIC_H

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@ -0,0 +1,32 @@
//========= Copyright © 1996-2010, Valve LLC, All rights reserved. ============
//
// Purpose: utilities to decode/decrypt a ticket from the
// ISteamUser::RequestEncryptedAppTicket, ISteamUser::GetEncryptedAppTicket API
//
// To use: declare CSteamEncryptedAppTicket, then call BDecryptTicket
// if BDecryptTicket returns true, other accessors are valid
//
//=============================================================================
#include "steam_api.h"
static const int k_nSteamEncryptedAppTicketSymmetricKeyLen = 32;
S_API bool SteamEncryptedAppTicket_BDecryptTicket( const uint8 *rgubTicketEncrypted, uint32 cubTicketEncrypted,
uint8 *rgubTicketDecrypted, uint32 *pcubTicketDecrypted,
const uint8 rgubKey[k_nSteamEncryptedAppTicketSymmetricKeyLen], int cubKey );
S_API bool SteamEncryptedAppTicket_BIsTicketForApp( uint8 *rgubTicketDecrypted, uint32 cubTicketDecrypted, AppId_t nAppID );
S_API RTime32 SteamEncryptedAppTicket_GetTicketIssueTime( uint8 *rgubTicketDecrypted, uint32 cubTicketDecrypted );
S_API void SteamEncryptedAppTicket_GetTicketSteamID( uint8 *rgubTicketDecrypted, uint32 cubTicketDecrypted, CSteamID *psteamID );
S_API AppId_t SteamEncryptedAppTicket_GetTicketAppID( uint8 *rgubTicketDecrypted, uint32 cubTicketDecrypted );
S_API bool SteamEncryptedAppTicket_BUserOwnsAppInTicket( uint8 *rgubTicketDecrypted, uint32 cubTicketDecrypted, AppId_t nAppID );
S_API bool SteamEncryptedAppTicket_BUserIsVacBanned( uint8 *rgubTicketDecrypted, uint32 cubTicketDecrypted );
S_API const uint8 *SteamEncryptedAppTicket_GetUserVariableData( uint8 *rgubTicketDecrypted, uint32 cubTicketDecrypted, uint32 *pcubUserData );

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@ -0,0 +1,27 @@
//====== Copyright 1996-2008, Valve Corporation, All rights reserved. =======
//
// Purpose:
//
//=============================================================================
#ifndef STEAM_PS3PARAMSINTERNAL_API_H
#define STEAM_PS3PARAMSINTERNAL_API_H
#ifdef _WIN32
#pragma once
#endif
//-----------------------------------------------------------------------------
// Purpose: Params used only internally at Valve. This is the reserved pointer of SteamPS3Params_t
//-----------------------------------------------------------------------------
struct SteamPS3ParamsInternal_t
{
int m_nVersion;
EUniverse m_eUniverse;
const char *m_pchCMForce; // list of CMs in form "IP:port;IP:port" or "IP;IP"
};
#define STEAM_PS3_PARAMS_INTERNAL_VERSION 1
#endif // STEAM_PS3PARAMSINTERNAL_API_H

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@ -0,0 +1,128 @@
//========= Copyright © 1996-2008, Valve LLC, All rights reserved. ============
//
// Purpose:
//
//=============================================================================
#ifndef STEAMTYPES_H
#define STEAMTYPES_H
#ifdef _WIN32
#pragma once
#endif
// Steam-specific types. Defined here so this header file can be included in other code bases.
#ifndef WCHARTYPES_H
typedef unsigned char uint8;
#endif
#if defined( __GNUC__ ) && !defined(POSIX)
#if __GNUC__ < 4
#error "Steamworks requires GCC 4.X (4.2 or 4.4 have been tested)"
#endif
#define POSIX 1
#endif
#if defined(__x86_64__) || defined(_WIN64)
#define X64BITS
#endif
// Make sure VALVE_BIG_ENDIAN gets set on PS3, may already be set previously in Valve internal code.
#if !defined(VALVE_BIG_ENDIAN) && defined(_PS3)
#define VALVE_BIG_ENDIAN
#endif
typedef unsigned char uint8;
typedef signed char int8;
#if defined( _WIN32 )
typedef __int16 int16;
typedef unsigned __int16 uint16;
typedef __int32 int32;
typedef unsigned __int32 uint32;
typedef __int64 int64;
typedef unsigned __int64 uint64;
#ifdef X64BITS
typedef __int64 intp; // intp is an integer that can accomodate a pointer
typedef unsigned __int64 uintp; // (ie, sizeof(intp) >= sizeof(int) && sizeof(intp) >= sizeof(void *)
#else
typedef __int32 intp;
typedef unsigned __int32 uintp;
#endif
#else // _WIN32
typedef short int16;
typedef unsigned short uint16;
typedef int int32;
typedef unsigned int uint32;
typedef long long int64;
typedef unsigned long long uint64;
#ifdef X64BITS
typedef long long intp;
typedef unsigned long long uintp;
#else
typedef int intp;
typedef unsigned int uintp;
#endif
#endif // else _WIN32
const int k_cubSaltSize = 8;
typedef uint8 Salt_t[ k_cubSaltSize ];
//-----------------------------------------------------------------------------
// GID (GlobalID) stuff
// This is a globally unique identifier. It's guaranteed to be unique across all
// racks and servers for as long as a given universe persists.
//-----------------------------------------------------------------------------
// NOTE: for GID parsing/rendering and other utils, see gid.h
typedef uint64 GID_t;
const GID_t k_GIDNil = 0xffffffffffffffffull;
// For convenience, we define a number of types that are just new names for GIDs
typedef GID_t JobID_t; // Each Job has a unique ID
typedef GID_t TxnID_t; // Each financial transaction has a unique ID
const GID_t k_TxnIDNil = k_GIDNil;
const GID_t k_TxnIDUnknown = 0;
// this is baked into client messages and interfaces as an int,
// make sure we never break this.
typedef uint32 PackageId_t;
const PackageId_t k_uPackageIdFreeSub = 0x0;
const PackageId_t k_uPackageIdInvalid = 0xFFFFFFFF;
// this is baked into client messages and interfaces as an int,
// make sure we never break this.
typedef uint32 AppId_t;
const AppId_t k_uAppIdInvalid = 0x0;
// this is baked into client messages and interfaces as an int,
// make sure we never break this. AppIds and DepotIDs also presently
// share the same namespace, but since we'd like to change that in the future
// I've defined it seperately here.
typedef uint32 DepotId_t;
const DepotId_t k_uDepotIdInvalid = 0x0;
// RTime32
// We use this 32 bit time representing real world time.
// It offers 1 second resolution beginning on January 1, 1970 (Unix time)
typedef uint32 RTime32;
typedef uint32 CellID_t;
const CellID_t k_uCellIDInvalid = 0xFFFFFFFF;
// handle to a Steam API call
typedef uint64 SteamAPICall_t;
const SteamAPICall_t k_uAPICallInvalid = 0x0;
#endif // STEAMTYPES_H

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@ -0,0 +1,40 @@
#include "steam_defs.h"
#include "steamworks_sdk_111x/steam_api.h"
#include "steamworks_sdk_111x/isteamgameserver.h"
#include "steamworks_sdk_111x/isteamgameserverstats.h"
#include "steamworks_sdk_111x/isteamgamecoordinator.h"
#include "steamclient_private.h"
extern "C" {
#pragma pack( push, 8 )
struct winLeaderboardEntry_t_111x {
CSteamID m_steamIDUser;
int32 m_nGlobalRank;
int32 m_nScore;
int32 m_cDetails;
UGCHandle_t m_hUGC;
} __attribute__ ((ms_struct));
#pragma pack( pop )
void win_to_lin_struct_LeaderboardEntry_t_111x(const void *w, void *l)
{
LeaderboardEntry_t *lin = (LeaderboardEntry_t *)l;
struct winLeaderboardEntry_t_111x *win = (struct winLeaderboardEntry_t_111x *)w;
lin->m_steamIDUser = win->m_steamIDUser;
lin->m_nGlobalRank = win->m_nGlobalRank;
lin->m_nScore = win->m_nScore;
lin->m_cDetails = win->m_cDetails;
lin->m_hUGC = win->m_hUGC;
}
void lin_to_win_struct_LeaderboardEntry_t_111x(const void *l, void *w)
{
LeaderboardEntry_t *lin = (LeaderboardEntry_t *)l;
struct winLeaderboardEntry_t_111x *win = (struct winLeaderboardEntry_t_111x *)w;
win->m_steamIDUser = lin->m_steamIDUser;
win->m_nGlobalRank = lin->m_nGlobalRank;
win->m_nScore = lin->m_nScore;
win->m_cDetails = lin->m_cDetails;
win->m_hUGC = lin->m_hUGC;
}
}

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@ -0,0 +1,3 @@
extern void win_to_lin_struct_LeaderboardEntry_t_111x(const void *w, void *l);
extern void lin_to_win_struct_LeaderboardEntry_t_111x(const void *l, void *w);

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@ -4534,6 +4534,193 @@ winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION004 *create_winISteam
return r;
}
#include "cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003.h"
typedef struct __winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 {
vtable_ptr *vtable;
void *linux_side;
} winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003;
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileWrite, 16)
bool __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileWrite(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, const char * pchFile, const void * pvData, int32 cubData)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileWrite(_this->linux_side, pchFile, pvData, cubData);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileRead, 16)
int32 __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileRead(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, const char * pchFile, void * pvData, int32 cubDataToRead)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileRead(_this->linux_side, pchFile, pvData, cubDataToRead);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileForget, 8)
bool __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileForget(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, const char * pchFile)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileForget(_this->linux_side, pchFile);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileDelete, 8)
bool __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileDelete(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, const char * pchFile)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileDelete(_this->linux_side, pchFile);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileShare, 8)
SteamAPICall_t __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileShare(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, const char * pchFile)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileShare(_this->linux_side, pchFile);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileExists, 8)
bool __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileExists(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, const char * pchFile)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileExists(_this->linux_side, pchFile);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FilePersisted, 8)
bool __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FilePersisted(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, const char * pchFile)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FilePersisted(_this->linux_side, pchFile);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileSize, 8)
int32 __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileSize(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, const char * pchFile)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileSize(_this->linux_side, pchFile);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileTimestamp, 8)
int64 __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileTimestamp(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, const char * pchFile)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileTimestamp(_this->linux_side, pchFile);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileCount, 4)
int32 __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileCount(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileCount(_this->linux_side);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileNameAndSize, 12)
const char * __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileNameAndSize(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, int iFile, int32 * pnFileSizeInBytes)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileNameAndSize(_this->linux_side, iFile, pnFileSizeInBytes);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetQuota, 12)
bool __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetQuota(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, int32 * pnTotalBytes, int32 * puAvailableBytes)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetQuota(_this->linux_side, pnTotalBytes, puAvailableBytes);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_IsCloudEnabledForAccount, 4)
bool __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_IsCloudEnabledForAccount(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_IsCloudEnabledForAccount(_this->linux_side);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_IsCloudEnabledForApp, 4)
bool __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_IsCloudEnabledForApp(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_IsCloudEnabledForApp(_this->linux_side);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_SetCloudEnabledForApp, 5)
void __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_SetCloudEnabledForApp(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, bool bEnabled)
{
TRACE("%p\n", _this);
cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_SetCloudEnabledForApp(_this->linux_side, bEnabled);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_UGCDownload, 12)
SteamAPICall_t __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_UGCDownload(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, UGCHandle_t hContent)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_UGCDownload(_this->linux_side, hContent);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetUGCDetails, 28)
bool __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetUGCDetails(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, UGCHandle_t hContent, AppId_t * pnAppID, char ** ppchName, int32 * pnFileSizeInBytes, CSteamID * pSteamIDOwner)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetUGCDetails(_this->linux_side, hContent, pnAppID, ppchName, pnFileSizeInBytes, pSteamIDOwner);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_UGCRead, 20)
int32 __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_UGCRead(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, UGCHandle_t hContent, void * pvData, int32 cubDataToRead)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_UGCRead(_this->linux_side, hContent, pvData, cubDataToRead);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetCachedUGCCount, 4)
int32 __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetCachedUGCCount(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetCachedUGCCount(_this->linux_side);
}
DEFINE_THISCALL_WRAPPER(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetCachedUGCHandle, 8)
UGCHandle_t __thiscall winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetCachedUGCHandle(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *_this, int32 iCachedContent)
{
TRACE("%p\n", _this);
return cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetCachedUGCHandle(_this->linux_side, iCachedContent);
}
extern vtable_ptr winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_vtable;
#ifndef __GNUC__
void __asm_dummy_vtables(void) {
#endif
__ASM_VTABLE(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003,
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileWrite)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileRead)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileForget)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileDelete)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileShare)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FileExists)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_FilePersisted)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileSize)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileTimestamp)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileCount)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetFileNameAndSize)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetQuota)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_IsCloudEnabledForAccount)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_IsCloudEnabledForApp)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_SetCloudEnabledForApp)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_UGCDownload)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetUGCDetails)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_UGCRead)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetCachedUGCCount)
VTABLE_ADD_FUNC(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_GetCachedUGCHandle)
);
#ifndef __GNUC__
}
#endif
winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *create_winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003(void *linux_side)
{
winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003 *r = HeapAlloc(GetProcessHeap(), 0, sizeof(winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003));
TRACE("-> %p\n", r);
r->vtable = &winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003_vtable;
r->linux_side = linux_side;
return r;
}
#include "cppISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION002.h"
typedef struct __winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION002 {

View File

@ -1022,6 +1022,281 @@ winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION009 *create_winISteamUserStat
return r;
}
#include "cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008.h"
typedef struct __winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 {
vtable_ptr *vtable;
void *linux_side;
} winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008;
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_RequestCurrentStats, 4)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_RequestCurrentStats(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_RequestCurrentStats(_this->linux_side);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetStat, 12)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetStat(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, const char * pchName, int32 * pData)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetStat(_this->linux_side, pchName, pData);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetStat_2, 12)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetStat_2(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, const char * pchName, float * pData)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetStat_2(_this->linux_side, pchName, pData);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetStat, 12)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetStat(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, const char * pchName, int32 nData)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetStat(_this->linux_side, pchName, nData);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetStat_2, 12)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetStat_2(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, const char * pchName, float fData)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetStat_2(_this->linux_side, pchName, fData);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_UpdateAvgRateStat, 20)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_UpdateAvgRateStat(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, const char * pchName, float flCountThisSession, double dSessionLength)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_UpdateAvgRateStat(_this->linux_side, pchName, flCountThisSession, dSessionLength);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievement, 12)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievement(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, const char * pchName, bool * pbAchieved)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievement(_this->linux_side, pchName, pbAchieved);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetAchievement, 8)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetAchievement(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, const char * pchName)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetAchievement(_this->linux_side, pchName);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_ClearAchievement, 8)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_ClearAchievement(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, const char * pchName)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_ClearAchievement(_this->linux_side, pchName);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementAndUnlockTime, 16)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementAndUnlockTime(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, const char * pchName, bool * pbAchieved, uint32 * punUnlockTime)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementAndUnlockTime(_this->linux_side, pchName, pbAchieved, punUnlockTime);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_StoreStats, 4)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_StoreStats(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_StoreStats(_this->linux_side);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementIcon, 8)
int __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementIcon(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, const char * pchName)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementIcon(_this->linux_side, pchName);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementDisplayAttribute, 12)
const char * __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementDisplayAttribute(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, const char * pchName, const char * pchKey)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementDisplayAttribute(_this->linux_side, pchName, pchKey);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_IndicateAchievementProgress, 16)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_IndicateAchievementProgress(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, const char * pchName, uint32 nCurProgress, uint32 nMaxProgress)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_IndicateAchievementProgress(_this->linux_side, pchName, nCurProgress, nMaxProgress);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_RequestUserStats, 12)
SteamAPICall_t __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_RequestUserStats(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, CSteamID steamIDUser)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_RequestUserStats(_this->linux_side, steamIDUser);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserStat, 20)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserStat(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, CSteamID steamIDUser, const char * pchName, int32 * pData)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserStat(_this->linux_side, steamIDUser, pchName, pData);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserStat_2, 20)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserStat_2(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, CSteamID steamIDUser, const char * pchName, float * pData)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserStat_2(_this->linux_side, steamIDUser, pchName, pData);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserAchievement, 20)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserAchievement(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, CSteamID steamIDUser, const char * pchName, bool * pbAchieved)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserAchievement(_this->linux_side, steamIDUser, pchName, pbAchieved);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserAchievementAndUnlockTime, 24)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserAchievementAndUnlockTime(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, CSteamID steamIDUser, const char * pchName, bool * pbAchieved, uint32 * punUnlockTime)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserAchievementAndUnlockTime(_this->linux_side, steamIDUser, pchName, pbAchieved, punUnlockTime);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_ResetAllStats, 5)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_ResetAllStats(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, bool bAchievementsToo)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_ResetAllStats(_this->linux_side, bAchievementsToo);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_FindOrCreateLeaderboard, 16)
SteamAPICall_t __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_FindOrCreateLeaderboard(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, const char * pchLeaderboardName, ELeaderboardSortMethod eLeaderboardSortMethod, ELeaderboardDisplayType eLeaderboardDisplayType)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_FindOrCreateLeaderboard(_this->linux_side, pchLeaderboardName, eLeaderboardSortMethod, eLeaderboardDisplayType);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_FindLeaderboard, 8)
SteamAPICall_t __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_FindLeaderboard(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, const char * pchLeaderboardName)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_FindLeaderboard(_this->linux_side, pchLeaderboardName);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardName, 12)
const char * __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardName(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, SteamLeaderboard_t hSteamLeaderboard)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardName(_this->linux_side, hSteamLeaderboard);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardEntryCount, 12)
int __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardEntryCount(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, SteamLeaderboard_t hSteamLeaderboard)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardEntryCount(_this->linux_side, hSteamLeaderboard);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardSortMethod, 12)
ELeaderboardSortMethod __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardSortMethod(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, SteamLeaderboard_t hSteamLeaderboard)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardSortMethod(_this->linux_side, hSteamLeaderboard);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardDisplayType, 12)
ELeaderboardDisplayType __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardDisplayType(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, SteamLeaderboard_t hSteamLeaderboard)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardDisplayType(_this->linux_side, hSteamLeaderboard);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_DownloadLeaderboardEntries, 24)
SteamAPICall_t __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_DownloadLeaderboardEntries(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, SteamLeaderboard_t hSteamLeaderboard, ELeaderboardDataRequest eLeaderboardDataRequest, int nRangeStart, int nRangeEnd)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_DownloadLeaderboardEntries(_this->linux_side, hSteamLeaderboard, eLeaderboardDataRequest, nRangeStart, nRangeEnd);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetDownloadedLeaderboardEntry, 28)
bool __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetDownloadedLeaderboardEntry(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, SteamLeaderboardEntries_t hSteamLeaderboardEntries, int index, LeaderboardEntry_t * pLeaderboardEntry, int32 * pDetails, int cDetailsMax)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetDownloadedLeaderboardEntry(_this->linux_side, hSteamLeaderboardEntries, index, pLeaderboardEntry, pDetails, cDetailsMax);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_UploadLeaderboardScore, 28)
SteamAPICall_t __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_UploadLeaderboardScore(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, SteamLeaderboard_t hSteamLeaderboard, ELeaderboardUploadScoreMethod eLeaderboardUploadScoreMethod, int32 nScore, const int32 * pScoreDetails, int cScoreDetailsCount)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_UploadLeaderboardScore(_this->linux_side, hSteamLeaderboard, eLeaderboardUploadScoreMethod, nScore, pScoreDetails, cScoreDetailsCount);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_AttachLeaderboardUGC, 20)
SteamAPICall_t __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_AttachLeaderboardUGC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this, SteamLeaderboard_t hSteamLeaderboard, UGCHandle_t hUGC)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_AttachLeaderboardUGC(_this->linux_side, hSteamLeaderboard, hUGC);
}
DEFINE_THISCALL_WRAPPER(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetNumberOfCurrentPlayers, 4)
SteamAPICall_t __thiscall winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetNumberOfCurrentPlayers(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *_this)
{
TRACE("%p\n", _this);
return cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetNumberOfCurrentPlayers(_this->linux_side);
}
extern vtable_ptr winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_vtable;
#ifndef __GNUC__
void __asm_dummy_vtables(void) {
#endif
__ASM_VTABLE(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008,
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_RequestCurrentStats)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetStat_2)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetStat)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetStat_2)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetStat)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_UpdateAvgRateStat)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievement)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_SetAchievement)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_ClearAchievement)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementAndUnlockTime)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_StoreStats)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementIcon)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetAchievementDisplayAttribute)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_IndicateAchievementProgress)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_RequestUserStats)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserStat_2)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserStat)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserAchievement)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetUserAchievementAndUnlockTime)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_ResetAllStats)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_FindOrCreateLeaderboard)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_FindLeaderboard)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardName)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardEntryCount)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardSortMethod)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetLeaderboardDisplayType)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_DownloadLeaderboardEntries)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetDownloadedLeaderboardEntry)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_UploadLeaderboardScore)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_AttachLeaderboardUGC)
VTABLE_ADD_FUNC(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_GetNumberOfCurrentPlayers)
);
#ifndef __GNUC__
}
#endif
winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *create_winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008(void *linux_side)
{
winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008 *r = HeapAlloc(GetProcessHeap(), 0, sizeof(winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008));
TRACE("-> %p\n", r);
r->vtable = &winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008_vtable;
r->linux_side = linux_side;
return r;
}
#include "cppISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION007.h"
typedef struct __winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION007 {

View File

@ -89,6 +89,8 @@ extern void *create_winISteamUser_SteamUser015(void *);
extern void *create_winISteamUser_SteamUser014(void *);
extern void *create_winISteamFriends_SteamFriends008(void *);
extern void *create_winISteamNetworking_SteamNetworking004(void *);
extern void *create_winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003(void *);
extern void *create_winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008(void *);
extern void *create_winISteamClient_SteamClient009(void *);
extern void *create_winISteamFriends_SteamFriends007(void *);
extern void *create_winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION007(void *);

View File

@ -89,6 +89,8 @@
{"SteamUser014", &create_winISteamUser_SteamUser014},
{"SteamFriends008", &create_winISteamFriends_SteamFriends008},
{"SteamNetworking004", &create_winISteamNetworking_SteamNetworking004},
{"STEAMREMOTESTORAGE_INTERFACE_VERSION003", &create_winISteamRemoteStorage_STEAMREMOTESTORAGE_INTERFACE_VERSION003},
{"STEAMUSERSTATS_INTERFACE_VERSION008", &create_winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION008},
{"SteamClient009", &create_winISteamClient_SteamClient009},
{"SteamFriends007", &create_winISteamFriends_SteamFriends007},
{"STEAMUSERSTATS_INTERFACE_VERSION007", &create_winISteamUserStats_STEAMUSERSTATS_INTERFACE_VERSION007},