14 KiB
What is the interface ISteamGameServerStats
This interface is relevant for game servers only, and responsible for sharing stats and achievements with the client. Some games (like appid 541300) might not handle user stats on their own, but rather expect the server to send the updated/changed user data.
While playing a game, the game client will send the player's current progress to the server, example: the player ate an apple, or the player killed 5 enemies, etc...
The server keeps track of the player progress, and once the player hits a certain condition (ex: eating an apple for the first time), the server will share an achievement with the game client, or send the current progress as a user statistics metric (ex: killing 5/10/50 enemies).
Overview of the interface functions
- On startup, the server will ask Valve servers to prepare the user data by calling
RequestUserStats()
and wait for the response - The server then, at any point, can ask for specific user stat/achievement
GetUserStat()
will return the current value for a given stat name, ex: amount of killed enemiesGetUserAchievement()
will return whether the user has unlocked a given achievement or not
- The server can also change/update this data
SetUserStat()
andUpdateUserAvgRateStat()
will update the stat valueSetUserAchievement()
andClearUserAchievement()
will grant or remove from the user a given achievement
- Finally, the server should upload the changed data back to Valve servers by calling
StoreUserStats()
How it is implemented in the emu
For starters, the emu doesn't offer a mechanism to emulate a central server, also all user stats and achievements are saved locally on the user's computer.
Let's say we have 3 people currently playing a game on the same network which has a dedicated server, and the server is utilizing this interface to share stats.
We'll implement the interface in a way such that each person is their own central server, and each will either broadcast their data, or only send it to the dedicated server:
Implementation of RequestUserStats()
When the server asks for the user data via RequestUserStats()
we'll send a request to that user, wait for their response, and finally trigger a callresult + a callback.
We'll also store each user data, in a hash map (dictionary) for later so when we change that data we know whose data are we changing.
It is fairly straightforward, one request from the server, with its corresponding response from the player/user. It is a directed one-to-one message.
|-------------| ====>> |-------------|
| server | | game client |
|-------------| <<==== |-------------|
-
Send a
protobuf
message to the user asking for all their statsenum Types { ... Request_AllUserStats = 0; ... } // sent from server as a request, response sent by the user message InitialAllStats { ... uint64 steam_api_call = 1; ... } Types type = 1; oneof data_messages { InitialAllStats initial_user_stats = 2; ... }
// SteamAPICall_t Steam_GameServerStats::RequestUserStats( CSteamID steamIDUser ) auto initial_stats_msg = new GameServerStats_Messages::InitialAllStats(); initial_stats_msg->set_steam_api_call(new_request.steamAPICall); auto gameserverstats_messages = new GameServerStats_Messages(); gameserverstats_messages->set_typ(GameServerStats_Messages::Request_AllUserStats); gameserverstats_messages->set_allocated_initial_user_stats(initial_stats_msg); Common_Message msg{}; // https://protobuf.dev/reference/cpp/cpp-generated/#string // set_allocated_xxx() takes ownership of the allocated object, no need to delete msg.set_allocated_gameserver_stats_messages(gameserverstats_messages); msg.set_source_id(settings->get_local_steam_id().ConvertToUint64()); msg.set_dest_id(new_request.steamIDUser.ConvertToUint64()); network->sendTo(&msg, true);
-
The user will send back a
protobuf
message containing all the data, this is the user response with the enumType
set toResponse_AllUserStats
enum Types { ... Response_AllUserStats = 1; ... } message InitialAllStats { uint64 steam_api_call = 1; // optional because the server send doesn't send any data, just steam api call id optional AllStats all_data = 2; } // this is used when updating stats, from server or user, bi-directional message AllStats { map<string, StatInfo> user_stats = 1; map<string, AchievementInfo> user_achievements = 2; } message StatInfo { enum Stat_Type { STAT_TYPE_INT = 0; STAT_TYPE_FLOAT = 1; STAT_TYPE_AVGRATE = 2; } message AvgStatInfo { float count_this_session = 1; double session_length = 2; } Stat_Type stat_type = 1; oneof stat_value { float value_float = 2; int32 value_int = 3; } ... } message AchievementInfo { bool achieved = 1; } Types type = 1; oneof data_messages { ... InitialAllStats initial_user_stats = 2; ... }
// void Steam_User_Stats::network_stats_initial(Common_Message *msg) auto initial_stats_msg = new GameServerStats_Messages::InitialAllStats(); // send back same api call id initial_stats_msg->set_steam_api_call(msg->gameserver_stats_messages() initial_user_stats().steam_api_call()); initial_stats_msg->set_allocated_all_data(all_stats_msg); auto gameserverstats_msg = new GameServerStats_Messages(); gameserverstats_msg->set_type(GameServerStats_Messages::Response_AllUserStats); gameserverstats_msg->set_allocated_initial_user_stats(initial_stats_msg); new_msg.set_allocated_gameserver_stats_messages(gameserverstats_msg); new_msg.set_source_id(settings->get_local_steam_id().ConvertToUint64()); new_msg.set_dest_id(server_steamid); network->sendTo(&new_msg, true);
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When the user returns a response, we'll trigger a callback + a callresult
// void Steam_GameServerStats::network_callback_initial_stats(Common_Message *msg) GSStatsReceived_t data{}; data.m_eResult = EResult::k_EResultOK; data.m_steamIDUser = user_steamid; callback_results->addCallResult(it->steamAPICall, data.k_iCallback, &data, sizeof(data)); callbacks->addCBResult(data.k_iCallback, &data, sizeof(data));
Implementation of SetUserStat()
, SetUserAchievement()
, and ClearUserAchievement()
The emu already asked the user earlier via RequestUserStats()
for their data and stored the result in a map/dictionary, so whenver the server calls any of these functions we can easily update the dictionary.
But when we send the updated data to the user we don't want to send the entire dictionary, it is wasteful but more importantly, if we keep sending the same unchanged data each time over and over, the Steam functions on the player's side will trigger a notification each time, meaning that the player might keep unlocking an achievement over and over or updating the same stats with the exact same values.
To solve this, the emu keeps a dictionary of cached data, each piece of data has a an accompanied boolean flag called dirty
, this flag is set to true
only when the server updates the data, and when it's time to send the new data to the user, we only collect those whose dirty
flag is set.
struct CachedStat {
bool dirty = false; // true means it was changed on the server and should be sent to the user
GameServerStats_Messages::StatInfo stat{};
};
struct CachedAchievement {
bool dirty = false; // true means it was changed on the server and should be sent to the user
GameServerStats_Messages::AchievementInfo ach{};
};
struct UserData {
std::map<std::string, CachedStat> stats{};
std::map<std::string, CachedAchievement> achievements{};
};
// dictionary of <user id, user data>
std::map<uint64, UserData> all_users_data{};
An example from SetUserAchievement()
auto ach = find_ach(steamIDUser, pchName);
if (!ach) return false;
if (ach->ach.achieved() == true) return true; // don't waste time
ach->dirty = true; // set the dirty flag
Another optimization made here is that the data is not sent immediately, game servers and game clients utilizing the Steam networking will always call Steam_Client::RunCallbacks()
periodically, so we can just for that periodic call and send any dirty data all at once, or nothing if everything is clean! (unchanged).
Here's the protobuf
message, and notice how it's exactly the same as the user/player response for RequestUserStats()
, with these exceptions:
- This is sent from the server, not the user/player
- The enum
Type
is set toUpdateUserStatsFromServer
- The active member in the
oneof data_messages
isupdate_user_stats
But the overall message has the same shape, and now contains only the changed data
enum Types {
...
UpdateUserStatsFromServer = 2; // sent by Steam_GameServerStats
...
}
// this is used when updating stats, from server or user, bi-directional
message AllStats {
map<string, StatInfo> user_stats = 1;
map<string, AchievementInfo> user_achievements = 2;
}
message StatInfo {
enum Stat_Type {
STAT_TYPE_INT = 0;
STAT_TYPE_FLOAT = 1;
STAT_TYPE_AVGRATE = 2;
}
message AvgStatInfo {
float count_this_session = 1;
double session_length = 2;
}
Stat_Type stat_type = 1;
oneof stat_value {
float value_float = 2;
int32 value_int = 3;
}
optional AvgStatInfo value_avg = 4; // only set when type != INT
}
message AchievementInfo {
bool achieved = 1;
}
Types type = 1;
oneof data_messages {
...
AllStats update_user_stats = 3;
...
}
// void Steam_GameServerStats::collect_and_send_updated_user_stats()
// collect all dirty stats
// collect all dirty achievements
// then for each user, send the dirty data at once as a single packet
auto gameserverstats_msg = new GameServerStats_Messages();
gameserverstats_msg->set_type(GameServerStats_Messages::UpdateUserStatsFromServer);
gameserverstats_msg->set_allocated_update_user_stats(updated_stats_msg);
Common_Message msg{};
// https://protobuf.dev/reference/cpp/cpp-generated/#string
// set_allocated_xxx() takes ownership of the allocated object, no need to delete
msg.set_allocated_gameserver_stats_messages(gameserverstats_msg);
msg.set_source_id(settings->get_local_steam_id().ConvertToUint64());
msg.set_dest_id(user_steamid);
network->sendTo(&msg, true);
Back on the user/client side, they will receive this message and update their data, as if the game itself has updated this data.
How data is shared with game servers if the game client updated its data
This more or less the same, with these changes
- The
protobuf
enumType
is set toUpdateUserStatsFromUser
- Since the game client doesn't know the server ID, it will broadcast the message to all game servers
// void Steam_User_Stats::send_updated_stats()
auto gameserverstats_msg = new GameServerStats_Messages();
gameserverstats_msg->set_type(GameServerStats_Messages::UpdateUserStatsFromUser);
gameserverstats_msg->set_allocated_update_user_stats(new_updates_msg);
Common_Message msg{};
// https://protobuf.dev/reference/cpp/cpp-generated/#string
// set_allocated_xxx() takes ownership of the allocated object, no need to delete
msg.set_allocated_gameserver_stats_messages(gameserverstats_msg);
msg.set_source_id(settings->get_local_steam_id().ConvertToUint64());
// here we send to all gameservers on the network because we don't know the server steamid
network->sendToAllGameservers(&msg, true);
Changes made to the networking
The networking implementation works like this
-
Store a list of all functions to trigger once a certain message is received, messages are tagged with some ID
enum Callback_Ids { CALLBACK_ID_USER_STATUS, ... CALLBACK_ID_GAMESERVER_STATS, // this is our new member ... CALLBACK_IDS_MAX };
Internally this is implemented as a static array, not a map/dictionary as one might expect
struct Network_Callback_Container callbacks[CALLBACK_IDS_MAX];
No need for a map here since the keys are static numbers known during compilation (the enum above), hence an array is equivalent to a map/dictionary here.
Each element of the array is just a collection of functions to be called/invoked later
struct Network_Callback_Container { std::vector<struct Network_Callback> callbacks{}; };
--------------------------- CALLBACK_ID_USER_STATUS ---> | &func_1 | &func_2 | ... | --------------------------- ----------------------------------- CALLBACK_ID_GAMESERVER_STATS ---> | &other_fn_1 | &other_fn_2 | ... | -----------------------------------
-
You can subscribe/listen to messages of that type or unsubscribe using these functions
// subscribe Networking::setCallback(...) // unsubscribe Networking::rmCallback(...)
-
The networking class has an event-based function, called whenever a network message is available, which will check for the message type, and trigger/call each subscriber
void Networking::do_callbacks_message(Common_Message *msg) { ... if (msg->has_gameserver_stats_messages()) { PRINT_DEBUG("has_gameserver_stats"); run_callbacks(CALLBACK_ID_GAMESERVER_STATS, msg); } ... }