#include "rc_client_internal.h" #include "rc_api_info.h" #include "rc_api_runtime.h" #include "rc_api_user.h" #include "rc_consoles.h" #include "rc_hash.h" #include "rapi/rc_api_common.h" #include "rcheevos/rc_internal.h" #include #ifdef _WIN32 #define WIN32_LEAN_AND_MEAN #include #include #else #include #endif #define RC_CLIENT_UNKNOWN_GAME_ID (uint32_t)-1 #define RC_CLIENT_RECENT_UNLOCK_DELAY_SECONDS (10 * 60) /* ten minutes */ #define RC_MINIMUM_UNPAUSED_FRAMES 20 #define RC_PAUSE_DECAY_MULTIPLIER 4 enum { RC_CLIENT_ASYNC_NOT_ABORTED = 0, RC_CLIENT_ASYNC_ABORTED = 1, RC_CLIENT_ASYNC_DESTROYED = 2 }; typedef struct rc_client_generic_callback_data_t { rc_client_t* client; rc_client_callback_t callback; void* callback_userdata; rc_client_async_handle_t async_handle; } rc_client_generic_callback_data_t; typedef struct rc_client_pending_media_t { const char* file_path; uint8_t* data; size_t data_size; rc_client_callback_t callback; void* callback_userdata; } rc_client_pending_media_t; typedef struct rc_client_load_state_t { rc_client_t* client; rc_client_callback_t callback; void* callback_userdata; rc_client_game_info_t* game; rc_client_subset_info_t* subset; rc_client_game_hash_t* hash; rc_hash_iterator_t hash_iterator; rc_client_pending_media_t* pending_media; rc_api_start_session_response_t *start_session_response; rc_client_async_handle_t async_handle; uint8_t progress; uint8_t outstanding_requests; uint8_t hash_console_id; } rc_client_load_state_t; static void rc_client_begin_fetch_game_data(rc_client_load_state_t* callback_data); static void rc_client_hide_progress_tracker(rc_client_t* client, rc_client_game_info_t* game); static void rc_client_load_error(rc_client_load_state_t* load_state, int result, const char* error_message); static rc_client_async_handle_t* rc_client_load_game(rc_client_load_state_t* load_state, const char* hash, const char* file_path); static void rc_client_ping(rc_client_scheduled_callback_data_t* callback_data, rc_client_t* client, rc_clock_t now); static void rc_client_raise_leaderboard_events(rc_client_t* client, rc_client_subset_info_t* subset); static void rc_client_raise_pending_events(rc_client_t* client, rc_client_game_info_t* game); static void rc_client_reschedule_callback(rc_client_t* client, rc_client_scheduled_callback_data_t* callback, rc_clock_t when); static void rc_client_award_achievement_retry(rc_client_scheduled_callback_data_t* callback_data, rc_client_t* client, rc_clock_t now); static int rc_client_is_award_achievement_pending(const rc_client_t* client, uint32_t achievement_id); static void rc_client_submit_leaderboard_entry_retry(rc_client_scheduled_callback_data_t* callback_data, rc_client_t* client, rc_clock_t now); /* ===== Construction/Destruction ===== */ static void rc_client_dummy_event_handler(const rc_client_event_t* event, rc_client_t* client) { (void)event; (void)client; } rc_client_t* rc_client_create(rc_client_read_memory_func_t read_memory_function, rc_client_server_call_t server_call_function) { rc_client_t* client = (rc_client_t*)calloc(1, sizeof(rc_client_t)); if (!client) return NULL; client->state.hardcore = 1; client->state.required_unpaused_frames = RC_MINIMUM_UNPAUSED_FRAMES; client->callbacks.read_memory = read_memory_function; client->callbacks.server_call = server_call_function; client->callbacks.event_handler = rc_client_dummy_event_handler; rc_client_set_legacy_peek(client, RC_CLIENT_LEGACY_PEEK_AUTO); rc_client_set_get_time_millisecs_function(client, NULL); rc_mutex_init(&client->state.mutex); rc_buffer_init(&client->state.buffer); return client; } void rc_client_destroy(rc_client_t* client) { if (!client) return; rc_mutex_lock(&client->state.mutex); { size_t i; for (i = 0; i < sizeof(client->state.async_handles) / sizeof(client->state.async_handles[0]); ++i) { if (client->state.async_handles[i]) client->state.async_handles[i]->aborted = RC_CLIENT_ASYNC_DESTROYED; } if (client->state.load) { client->state.load->async_handle.aborted = RC_CLIENT_ASYNC_DESTROYED; client->state.load = NULL; } } rc_mutex_unlock(&client->state.mutex); rc_client_unload_game(client); #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->destroy) client->state.external_client->destroy(); #endif rc_buffer_destroy(&client->state.buffer); rc_mutex_destroy(&client->state.mutex); free(client); } /* ===== Logging ===== */ static rc_client_t* g_hash_client = NULL; static void rc_client_log_hash_message(const char* message) { rc_client_log_message(g_hash_client, message); } void rc_client_log_message(const rc_client_t* client, const char* message) { if (client->callbacks.log_call) client->callbacks.log_call(message, client); } static void rc_client_log_message_va(const rc_client_t* client, const char* format, va_list args) { if (client->callbacks.log_call) { char buffer[2048]; #ifdef __STDC_WANT_SECURE_LIB__ vsprintf_s(buffer, sizeof(buffer), format, args); #elif __STDC_VERSION__ >= 199901L /* vsnprintf requires c99 */ vsnprintf(buffer, sizeof(buffer), format, args); #else /* c89 doesn't have a size-limited vsprintf function - assume the buffer is large enough */ vsprintf(buffer, format, args); #endif client->callbacks.log_call(buffer, client); } } #ifdef RC_NO_VARIADIC_MACROS void RC_CLIENT_LOG_ERR_FORMATTED(const rc_client_t* client, const char* format, ...) { if (client->state.log_level >= RC_CLIENT_LOG_LEVEL_ERROR) { va_list args; va_start(args, format); rc_client_log_message_va(client, format, args); va_end(args); } } void RC_CLIENT_LOG_WARN_FORMATTED(const rc_client_t* client, const char* format, ...) { if (client->state.log_level >= RC_CLIENT_LOG_LEVEL_WARN) { va_list args; va_start(args, format); rc_client_log_message_va(client, format, args); va_end(args); } } void RC_CLIENT_LOG_INFO_FORMATTED(const rc_client_t* client, const char* format, ...) { if (client->state.log_level >= RC_CLIENT_LOG_LEVEL_INFO) { va_list args; va_start(args, format); rc_client_log_message_va(client, format, args); va_end(args); } } void RC_CLIENT_LOG_VERBOSE_FORMATTED(const rc_client_t* client, const char* format, ...) { if (client->state.log_level >= RC_CLIENT_LOG_LEVEL_VERBOSE) { va_list args; va_start(args, format); rc_client_log_message_va(client, format, args); va_end(args); } } #else void rc_client_log_message_formatted(const rc_client_t* client, const char* format, ...) { va_list args; va_start(args, format); rc_client_log_message_va(client, format, args); va_end(args); } #endif /* RC_NO_VARIADIC_MACROS */ void rc_client_enable_logging(rc_client_t* client, int level, rc_client_message_callback_t callback) { client->callbacks.log_call = callback; client->state.log_level = callback ? level : RC_CLIENT_LOG_LEVEL_NONE; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->enable_logging) client->state.external_client->enable_logging(client, level, callback); #endif } /* ===== Common ===== */ static rc_clock_t rc_client_clock_get_now_millisecs(const rc_client_t* client) { #if defined(CLOCK_MONOTONIC) struct timespec now; (void)client; if (clock_gettime(CLOCK_MONOTONIC, &now) < 0) return 0; /* round nanoseconds to nearest millisecond and add to seconds */ return ((rc_clock_t)now.tv_sec * 1000 + ((rc_clock_t)now.tv_nsec / 1000000)); #elif defined(_WIN32) static LARGE_INTEGER freq; LARGE_INTEGER ticks; (void)client; /* Frequency is the number of ticks per second and is guaranteed to not change. */ if (!freq.QuadPart) { if (!QueryPerformanceFrequency(&freq)) return 0; /* convert to number of ticks per millisecond to simplify later calculations */ freq.QuadPart /= 1000; } if (!QueryPerformanceCounter(&ticks)) return 0; return (rc_clock_t)(ticks.QuadPart / freq.QuadPart); #else const clock_t clock_now = clock(); (void)client; if (sizeof(clock_t) == 4) { static uint32_t clock_wraps = 0; static clock_t last_clock = 0; static time_t last_timet = 0; const time_t time_now = time(NULL); if (last_timet != 0) { const time_t seconds_per_clock_t = (time_t)(((uint64_t)1 << 32) / CLOCKS_PER_SEC); if (clock_now < last_clock) { /* clock() has wrapped */ ++clock_wraps; } else if (time_now - last_timet > seconds_per_clock_t) { /* it's been long enough that clock() has wrapped and is higher than the last time it was read */ ++clock_wraps; } } last_timet = time_now; last_clock = clock_now; return (rc_clock_t)((((uint64_t)clock_wraps << 32) | clock_now) / (CLOCKS_PER_SEC / 1000)); } else { return (rc_clock_t)(clock_now / (CLOCKS_PER_SEC / 1000)); } #endif } void rc_client_set_get_time_millisecs_function(rc_client_t* client, rc_get_time_millisecs_func_t handler) { client->callbacks.get_time_millisecs = handler ? handler : rc_client_clock_get_now_millisecs; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->set_get_time_millisecs) client->state.external_client->set_get_time_millisecs(client, handler); #endif } int rc_client_async_handle_aborted(rc_client_t* client, rc_client_async_handle_t* async_handle) { int aborted; rc_mutex_lock(&client->state.mutex); aborted = async_handle->aborted; rc_mutex_unlock(&client->state.mutex); return aborted; } static void rc_client_begin_async(rc_client_t* client, rc_client_async_handle_t* async_handle) { size_t i; rc_mutex_lock(&client->state.mutex); for (i = 0; i < sizeof(client->state.async_handles) / sizeof(client->state.async_handles[0]); ++i) { if (!client->state.async_handles[i]) { client->state.async_handles[i] = async_handle; break; } } rc_mutex_unlock(&client->state.mutex); } static int rc_client_end_async(rc_client_t* client, rc_client_async_handle_t* async_handle) { int aborted = async_handle->aborted; /* if client was destroyed, mutex doesn't exist and we don't need to remove the handle from the collection */ if (aborted != RC_CLIENT_ASYNC_DESTROYED) { size_t i; rc_mutex_lock(&client->state.mutex); for (i = 0; i < sizeof(client->state.async_handles) / sizeof(client->state.async_handles[0]); ++i) { if (client->state.async_handles[i] == async_handle) { client->state.async_handles[i] = NULL; break; } } aborted = async_handle->aborted; rc_mutex_unlock(&client->state.mutex); } return aborted; } void rc_client_abort_async(rc_client_t* client, rc_client_async_handle_t* async_handle) { if (async_handle && client) { #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->abort_async) { client->state.external_client->abort_async(async_handle); return; } #endif rc_mutex_lock(&client->state.mutex); async_handle->aborted = RC_CLIENT_ASYNC_ABORTED; rc_mutex_unlock(&client->state.mutex); } } static int rc_client_async_handle_valid(rc_client_t* client, rc_client_async_handle_t* async_handle) { int valid = 0; size_t i; /* there is a small window of opportunity where the client could have been destroyed before calling * this function, but this function assumes the possibility that the handle has been destroyed, so * we can't check it for RC_CLIENT_ASYNC_DESTROYED before attempting to scan the client data */ rc_mutex_lock(&client->state.mutex); for (i = 0; i < sizeof(client->state.async_handles) / sizeof(client->state.async_handles[0]); ++i) { if (client->state.async_handles[i] == async_handle) { valid = 1; break; } } rc_mutex_unlock(&client->state.mutex); return valid; } static const char* rc_client_server_error_message(int* result, int http_status_code, const rc_api_response_t* response) { if (!response->succeeded) { if (*result == RC_OK) { *result = RC_API_FAILURE; if (!response->error_message) return "Unexpected API failure with no error message"; } if (response->error_message) return response->error_message; } (void)http_status_code; if (*result != RC_OK) return rc_error_str(*result); return NULL; } static void rc_client_raise_server_error_event(rc_client_t* client, const char* api, uint32_t related_id, int result, const char* error_message) { rc_client_server_error_t server_error; rc_client_event_t client_event; server_error.api = api; server_error.error_message = error_message; server_error.result = result; server_error.related_id = related_id; memset(&client_event, 0, sizeof(client_event)); client_event.type = RC_CLIENT_EVENT_SERVER_ERROR; client_event.server_error = &server_error; client->callbacks.event_handler(&client_event, client); } static void rc_client_update_disconnect_state(rc_client_t* client) { rc_client_scheduled_callback_data_t* scheduled_callback; uint8_t new_state = RC_CLIENT_DISCONNECT_HIDDEN; rc_mutex_lock(&client->state.mutex); scheduled_callback = client->state.scheduled_callbacks; for (; scheduled_callback; scheduled_callback = scheduled_callback->next) { if (scheduled_callback->callback == rc_client_award_achievement_retry || scheduled_callback->callback == rc_client_submit_leaderboard_entry_retry) { new_state = RC_CLIENT_DISCONNECT_VISIBLE; break; } } if ((client->state.disconnect & RC_CLIENT_DISCONNECT_VISIBLE) != new_state) { if (new_state == RC_CLIENT_DISCONNECT_VISIBLE) client->state.disconnect = RC_CLIENT_DISCONNECT_HIDDEN | RC_CLIENT_DISCONNECT_SHOW_PENDING; else client->state.disconnect = RC_CLIENT_DISCONNECT_VISIBLE | RC_CLIENT_DISCONNECT_HIDE_PENDING; } else { client->state.disconnect = new_state; } rc_mutex_unlock(&client->state.mutex); } static void rc_client_raise_disconnect_events(rc_client_t* client) { rc_client_event_t client_event; uint8_t new_state; rc_mutex_lock(&client->state.mutex); if (client->state.disconnect & RC_CLIENT_DISCONNECT_SHOW_PENDING) new_state = RC_CLIENT_DISCONNECT_VISIBLE; else new_state = RC_CLIENT_DISCONNECT_HIDDEN; client->state.disconnect = new_state; rc_mutex_unlock(&client->state.mutex); memset(&client_event, 0, sizeof(client_event)); client_event.type = (new_state == RC_CLIENT_DISCONNECT_VISIBLE) ? RC_CLIENT_EVENT_DISCONNECTED : RC_CLIENT_EVENT_RECONNECTED; client->callbacks.event_handler(&client_event, client); } static int rc_client_should_retry(const rc_api_server_response_t* server_response) { switch (server_response->http_status_code) { case 502: /* 502 Bad Gateway */ /* nginx connection pool full */ return 1; case 503: /* 503 Service Temporarily Unavailable */ /* site is in maintenance mode */ return 1; case 504: /* 504 Gateway Timeout */ /* timeout between web server and database server */ return 1; case 429: /* 429 Too Many Requests */ /* too many unlocks occurred at the same time */ return 1; case 521: /* 521 Web Server is Down */ /* cloudfare could not find the server */ return 1; case 522: /* 522 Connection Timed Out */ /* timeout connecting to server from cloudfare */ return 1; case 523: /* 523 Origin is Unreachable */ /* cloudfare cannot find server */ return 1; case 524: /* 524 A Timeout Occurred */ /* connection to server from cloudfare was dropped before request was completed */ return 1; case 525: /* 525 SSL Handshake Failed */ /* web server worker connection pool is exhausted */ return 1; case RC_API_SERVER_RESPONSE_RETRYABLE_CLIENT_ERROR: /* client provided non-HTTP error (explicitly retryable) */ return 1; case RC_API_SERVER_RESPONSE_CLIENT_ERROR: /* client provided non-HTTP error (implicitly non-retryable) */ return 0; default: /* assume any error not handled above where no response was received should be retried */ if (server_response->body_length == 0 || !server_response->body || !server_response->body[0]) return 1; return 0; } } static int rc_client_get_image_url(char buffer[], size_t buffer_size, int image_type, const char* image_name) { rc_api_fetch_image_request_t image_request; rc_api_request_t request; int result; if (!buffer) return RC_INVALID_STATE; memset(&image_request, 0, sizeof(image_request)); image_request.image_type = image_type; image_request.image_name = image_name; result = rc_api_init_fetch_image_request(&request, &image_request); if (result == RC_OK) snprintf(buffer, buffer_size, "%s", request.url); rc_api_destroy_request(&request); return result; } /* ===== User ===== */ static void rc_client_login_callback(const rc_api_server_response_t* server_response, void* callback_data) { rc_client_generic_callback_data_t* login_callback_data = (rc_client_generic_callback_data_t*)callback_data; rc_client_t* client = login_callback_data->client; rc_api_login_response_t login_response; rc_client_load_state_t* load_state; const char* error_message; int result; result = rc_client_end_async(client, &login_callback_data->async_handle); if (result) { if (result != RC_CLIENT_ASYNC_DESTROYED) rc_client_logout(client); /* logout will reset the user state and call the load game callback */ free(login_callback_data); return; } if (client->state.user == RC_CLIENT_USER_STATE_NONE) { /* logout was called */ if (login_callback_data->callback) login_callback_data->callback(RC_ABORTED, "Login aborted", client, login_callback_data->callback_userdata); free(login_callback_data); /* logout call will immediately abort load game before this callback gets called */ return; } result = rc_api_process_login_server_response(&login_response, server_response); error_message = rc_client_server_error_message(&result, server_response->http_status_code, &login_response.response); if (error_message) { rc_mutex_lock(&client->state.mutex); client->state.user = RC_CLIENT_USER_STATE_NONE; load_state = client->state.load; rc_mutex_unlock(&client->state.mutex); RC_CLIENT_LOG_ERR_FORMATTED(client, "Login failed: %s", error_message); if (login_callback_data->callback) login_callback_data->callback(result, error_message, client, login_callback_data->callback_userdata); if (load_state && load_state->progress == RC_CLIENT_LOAD_STATE_AWAIT_LOGIN) rc_client_begin_fetch_game_data(load_state); } else { client->user.username = rc_buffer_strcpy(&client->state.buffer, login_response.username); if (strcmp(login_response.username, login_response.display_name) == 0) client->user.display_name = client->user.username; else client->user.display_name = rc_buffer_strcpy(&client->state.buffer, login_response.display_name); client->user.token = rc_buffer_strcpy(&client->state.buffer, login_response.api_token); client->user.score = login_response.score; client->user.score_softcore = login_response.score_softcore; client->user.num_unread_messages = login_response.num_unread_messages; rc_mutex_lock(&client->state.mutex); client->state.user = RC_CLIENT_USER_STATE_LOGGED_IN; load_state = client->state.load; rc_mutex_unlock(&client->state.mutex); RC_CLIENT_LOG_INFO_FORMATTED(client, "%s logged in successfully", login_response.display_name); if (load_state && load_state->progress == RC_CLIENT_LOAD_STATE_AWAIT_LOGIN) rc_client_begin_fetch_game_data(load_state); if (login_callback_data->callback) login_callback_data->callback(RC_OK, NULL, client, login_callback_data->callback_userdata); } rc_api_destroy_login_response(&login_response); free(login_callback_data); } static rc_client_async_handle_t* rc_client_begin_login(rc_client_t* client, const rc_api_login_request_t* login_request, rc_client_callback_t callback, void* callback_userdata) { rc_client_generic_callback_data_t* callback_data; rc_api_request_t request; int result = rc_api_init_login_request(&request, login_request); const char* error_message = rc_error_str(result); if (result == RC_OK) { rc_mutex_lock(&client->state.mutex); if (client->state.user == RC_CLIENT_USER_STATE_LOGIN_REQUESTED) { error_message = "Login already in progress"; result = RC_INVALID_STATE; } client->state.user = RC_CLIENT_USER_STATE_LOGIN_REQUESTED; rc_mutex_unlock(&client->state.mutex); } if (result != RC_OK) { callback(result, error_message, client, callback_userdata); return NULL; } callback_data = (rc_client_generic_callback_data_t*)calloc(1, sizeof(*callback_data)); if (!callback_data) { callback(RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY), client, callback_userdata); return NULL; } callback_data->client = client; callback_data->callback = callback; callback_data->callback_userdata = callback_userdata; rc_client_begin_async(client, &callback_data->async_handle); client->callbacks.server_call(&request, rc_client_login_callback, callback_data, client); rc_api_destroy_request(&request); /* if the user state has changed, the async operation completed synchronously */ rc_mutex_lock(&client->state.mutex); if (client->state.user != RC_CLIENT_USER_STATE_LOGIN_REQUESTED) callback_data = NULL; rc_mutex_unlock(&client->state.mutex); return callback_data ? &callback_data->async_handle : NULL; } rc_client_async_handle_t* rc_client_begin_login_with_password(rc_client_t* client, const char* username, const char* password, rc_client_callback_t callback, void* callback_userdata) { rc_api_login_request_t login_request; if (!client) { callback(RC_INVALID_STATE, "client is required", client, callback_userdata); return NULL; } if (!username || !username[0]) { callback(RC_INVALID_STATE, "username is required", client, callback_userdata); return NULL; } if (!password || !password[0]) { callback(RC_INVALID_STATE, "password is required", client, callback_userdata); return NULL; } #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->begin_login_with_password) return client->state.external_client->begin_login_with_password(client, username, password, callback, callback_userdata); #endif memset(&login_request, 0, sizeof(login_request)); login_request.username = username; login_request.password = password; RC_CLIENT_LOG_INFO_FORMATTED(client, "Attempting to log in %s (with password)", username); return rc_client_begin_login(client, &login_request, callback, callback_userdata); } rc_client_async_handle_t* rc_client_begin_login_with_token(rc_client_t* client, const char* username, const char* token, rc_client_callback_t callback, void* callback_userdata) { rc_api_login_request_t login_request; if (!client) { callback(RC_INVALID_STATE, "client is required", client, callback_userdata); return NULL; } if (!username || !username[0]) { callback(RC_INVALID_STATE, "username is required", client, callback_userdata); return NULL; } if (!token || !token[0]) { callback(RC_INVALID_STATE, "token is required", client, callback_userdata); return NULL; } #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->begin_login_with_token) return client->state.external_client->begin_login_with_token(client, username, token, callback, callback_userdata); #endif memset(&login_request, 0, sizeof(login_request)); login_request.username = username; login_request.api_token = token; RC_CLIENT_LOG_INFO_FORMATTED(client, "Attempting to log in %s (with token)", username); return rc_client_begin_login(client, &login_request, callback, callback_userdata); } void rc_client_logout(rc_client_t* client) { rc_client_load_state_t* load_state; if (!client) return; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->logout) { client->state.external_client->logout(); return; } #endif switch (client->state.user) { case RC_CLIENT_USER_STATE_LOGGED_IN: RC_CLIENT_LOG_INFO_FORMATTED(client, "Logging %s out", client->user.display_name); break; case RC_CLIENT_USER_STATE_LOGIN_REQUESTED: RC_CLIENT_LOG_INFO(client, "Aborting login"); break; } rc_mutex_lock(&client->state.mutex); client->state.user = RC_CLIENT_USER_STATE_NONE; memset(&client->user, 0, sizeof(client->user)); load_state = client->state.load; rc_mutex_unlock(&client->state.mutex); rc_client_unload_game(client); if (load_state && load_state->progress == RC_CLIENT_LOAD_STATE_AWAIT_LOGIN) rc_client_load_error(load_state, RC_ABORTED, "Login aborted"); } const rc_client_user_t* rc_client_get_user_info(const rc_client_t* client) { if (!client) return NULL; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->get_user_info) return client->state.external_client->get_user_info(); #endif return (client->state.user == RC_CLIENT_USER_STATE_LOGGED_IN) ? &client->user : NULL; } int rc_client_user_get_image_url(const rc_client_user_t* user, char buffer[], size_t buffer_size) { if (!user) return RC_INVALID_STATE; return rc_client_get_image_url(buffer, buffer_size, RC_IMAGE_TYPE_USER, user->display_name); } static void rc_client_subset_get_user_game_summary(const rc_client_subset_info_t* subset, rc_client_user_game_summary_t* summary, const uint8_t unlock_bit) { rc_client_achievement_info_t* achievement = subset->achievements; rc_client_achievement_info_t* stop = achievement + subset->public_.num_achievements; for (; achievement < stop; ++achievement) { switch (achievement->public_.category) { case RC_CLIENT_ACHIEVEMENT_CATEGORY_CORE: ++summary->num_core_achievements; summary->points_core += achievement->public_.points; if (achievement->public_.unlocked & unlock_bit) { ++summary->num_unlocked_achievements; summary->points_unlocked += achievement->public_.points; } if (achievement->public_.bucket == RC_CLIENT_ACHIEVEMENT_BUCKET_UNSUPPORTED) { ++summary->num_unsupported_achievements; } break; case RC_CLIENT_ACHIEVEMENT_CATEGORY_UNOFFICIAL: ++summary->num_unofficial_achievements; break; default: continue; } } } void rc_client_get_user_game_summary(const rc_client_t* client, rc_client_user_game_summary_t* summary) { const uint8_t unlock_bit = (client->state.hardcore) ? RC_CLIENT_ACHIEVEMENT_UNLOCKED_HARDCORE : RC_CLIENT_ACHIEVEMENT_UNLOCKED_SOFTCORE; if (!summary) return; memset(summary, 0, sizeof(*summary)); if (!client) return; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->get_user_game_summary) { client->state.external_client->get_user_game_summary(summary); return; } #endif if (!client->game) return; rc_mutex_lock((rc_mutex_t*)&client->state.mutex); /* remove const cast for mutex access */ rc_client_subset_get_user_game_summary(client->game->subsets, summary, unlock_bit); rc_mutex_unlock((rc_mutex_t*)&client->state.mutex); /* remove const cast for mutex access */ } /* ===== Game ===== */ static void rc_client_free_game(rc_client_game_info_t* game) { rc_runtime_destroy(&game->runtime); rc_buffer_destroy(&game->buffer); free(game); } static void rc_client_free_load_state(rc_client_load_state_t* load_state) { if (load_state->game) rc_client_free_game(load_state->game); if (load_state->start_session_response) { rc_api_destroy_start_session_response(load_state->start_session_response); free(load_state->start_session_response); } free(load_state); } static void rc_client_begin_load_state(rc_client_load_state_t* load_state, uint8_t state, uint8_t num_requests) { rc_mutex_lock(&load_state->client->state.mutex); load_state->progress = state; load_state->outstanding_requests += num_requests; rc_mutex_unlock(&load_state->client->state.mutex); } static int rc_client_end_load_state(rc_client_load_state_t* load_state) { int remaining_requests = 0; int aborted = 0; rc_mutex_lock(&load_state->client->state.mutex); if (load_state->outstanding_requests > 0) --load_state->outstanding_requests; remaining_requests = load_state->outstanding_requests; if (load_state->client->state.load != load_state) aborted = 1; rc_mutex_unlock(&load_state->client->state.mutex); if (aborted) { /* we can't actually free the load_state itself if there are any outstanding requests * or their callbacks will try to use the free'd memory. As they call end_load_state, * the outstanding_requests count will reach zero and the memory will be free'd then. */ if (remaining_requests == 0) { /* if one of the callbacks called rc_client_load_error, progress will be set to * RC_CLIENT_LOAD_STATE_UNKNOWN. There's no need to call the callback with RC_ABORTED * in that case, as it will have already been called with something more appropriate. */ if (load_state->progress != RC_CLIENT_LOAD_STATE_UNKNOWN_GAME && load_state->callback) load_state->callback(RC_ABORTED, "The requested game is no longer active", load_state->client, load_state->callback_userdata); rc_client_free_load_state(load_state); } return -1; } return remaining_requests; } static void rc_client_load_error(rc_client_load_state_t* load_state, int result, const char* error_message) { int remaining_requests = 0; rc_mutex_lock(&load_state->client->state.mutex); load_state->progress = RC_CLIENT_LOAD_STATE_UNKNOWN_GAME; if (load_state->client->state.load == load_state) load_state->client->state.load = NULL; remaining_requests = load_state->outstanding_requests; rc_mutex_unlock(&load_state->client->state.mutex); RC_CLIENT_LOG_ERR_FORMATTED(load_state->client, "Load failed (%d): %s", result, error_message); if (load_state->callback) load_state->callback(result, error_message, load_state->client, load_state->callback_userdata); /* we can't actually free the load_state itself if there are any outstanding requests * or their callbacks will try to use the free'd memory. as they call end_load_state, * the outstanding_requests count will reach zero and the memory will be free'd then. */ if (remaining_requests == 0) rc_client_free_load_state(load_state); } static void rc_client_load_aborted(rc_client_load_state_t* load_state) { /* prevent callback from being called when manually aborted */ load_state->callback = NULL; /* mark the game as no longer being loaded */ rc_client_load_error(load_state, RC_ABORTED, NULL); /* decrement the async counter and potentially free the load_state object */ rc_client_end_load_state(load_state); } static void rc_client_invalidate_memref_achievements(rc_client_game_info_t* game, rc_client_t* client, rc_memref_t* memref) { rc_client_subset_info_t* subset = game->subsets; for (; subset; subset = subset->next) { rc_client_achievement_info_t* achievement = subset->achievements; rc_client_achievement_info_t* stop = achievement + subset->public_.num_achievements; for (; achievement < stop; ++achievement) { if (achievement->public_.state == RC_CLIENT_ACHIEVEMENT_STATE_DISABLED) continue; if (rc_trigger_contains_memref(achievement->trigger, memref)) { achievement->public_.state = RC_CLIENT_ACHIEVEMENT_STATE_DISABLED; achievement->public_.bucket = RC_CLIENT_ACHIEVEMENT_BUCKET_UNSUPPORTED; if (achievement->trigger) achievement->trigger->state = RC_TRIGGER_STATE_DISABLED; RC_CLIENT_LOG_WARN_FORMATTED(client, "Disabled achievement %u. Invalid address %06X", achievement->public_.id, memref->address); } } } } static void rc_client_invalidate_memref_leaderboards(rc_client_game_info_t* game, rc_client_t* client, rc_memref_t* memref) { rc_client_subset_info_t* subset = game->subsets; for (; subset; subset = subset->next) { rc_client_leaderboard_info_t* leaderboard = subset->leaderboards; rc_client_leaderboard_info_t* stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < stop; ++leaderboard) { if (leaderboard->public_.state == RC_CLIENT_LEADERBOARD_STATE_DISABLED) continue; if (rc_trigger_contains_memref(&leaderboard->lboard->start, memref)) leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_DISABLED; else if (rc_trigger_contains_memref(&leaderboard->lboard->cancel, memref)) leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_DISABLED; else if (rc_trigger_contains_memref(&leaderboard->lboard->submit, memref)) leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_DISABLED; else if (rc_value_contains_memref(&leaderboard->lboard->value, memref)) leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_DISABLED; else continue; if (leaderboard->lboard) leaderboard->lboard->state = RC_LBOARD_STATE_DISABLED; RC_CLIENT_LOG_WARN_FORMATTED(client, "Disabled leaderboard %u. Invalid address %06X", leaderboard->public_.id, memref->address); } } } static void rc_client_validate_addresses(rc_client_game_info_t* game, rc_client_t* client) { const rc_memory_regions_t* regions = rc_console_memory_regions(game->public_.console_id); const uint32_t max_address = (regions && regions->num_regions > 0) ? regions->region[regions->num_regions - 1].end_address : 0xFFFFFFFF; uint8_t buffer[8]; uint32_t total_count = 0; uint32_t invalid_count = 0; rc_memref_t** last_memref = &game->runtime.memrefs; rc_memref_t* memref = game->runtime.memrefs; for (; memref; memref = memref->next) { if (!memref->value.is_indirect) { total_count++; if (memref->address > max_address || client->callbacks.read_memory(memref->address, buffer, 1, client) == 0) { /* invalid address, remove from chain so we don't have to evaluate it in the future. * it's still there, so anything referencing it will always fetch 0. */ *last_memref = memref->next; rc_client_invalidate_memref_achievements(game, client, memref); rc_client_invalidate_memref_leaderboards(game, client, memref); invalid_count++; continue; } } last_memref = &memref->next; } game->max_valid_address = max_address; RC_CLIENT_LOG_VERBOSE_FORMATTED(client, "%u/%u memory addresses valid", total_count - invalid_count, total_count); } static void rc_client_update_legacy_runtime_achievements(rc_client_game_info_t* game, uint32_t active_count) { if (active_count > 0) { rc_client_achievement_info_t* achievement; rc_client_achievement_info_t* stop; rc_runtime_trigger_t* trigger; rc_client_subset_info_t* subset; if (active_count <= game->runtime.trigger_capacity) { if (active_count != 0) memset(game->runtime.triggers, 0, active_count * sizeof(rc_runtime_trigger_t)); } else { if (game->runtime.triggers) free(game->runtime.triggers); game->runtime.trigger_capacity = active_count; game->runtime.triggers = (rc_runtime_trigger_t*)calloc(1, active_count * sizeof(rc_runtime_trigger_t)); } trigger = game->runtime.triggers; if (!trigger) { /* malloc failed, no way to report error, just bail */ game->runtime.trigger_count = 0; return; } for (subset = game->subsets; subset; subset = subset->next) { if (!subset->active) continue; achievement = subset->achievements; stop = achievement + subset->public_.num_achievements; for (; achievement < stop; ++achievement) { if (achievement->public_.state == RC_CLIENT_ACHIEVEMENT_STATE_ACTIVE) { trigger->id = achievement->public_.id; memcpy(trigger->md5, achievement->md5, 16); trigger->trigger = achievement->trigger; ++trigger; } } } } game->runtime.trigger_count = active_count; } static uint32_t rc_client_subset_count_active_achievements(const rc_client_subset_info_t* subset) { rc_client_achievement_info_t* achievement = subset->achievements; rc_client_achievement_info_t* stop = achievement + subset->public_.num_achievements; uint32_t active_count = 0; for (; achievement < stop; ++achievement) { if (achievement->public_.state == RC_CLIENT_ACHIEVEMENT_STATE_ACTIVE) ++active_count; } return active_count; } void rc_client_update_active_achievements(rc_client_game_info_t* game) { uint32_t active_count = 0; rc_client_subset_info_t* subset = game->subsets; for (; subset; subset = subset->next) { if (subset->active) active_count += rc_client_subset_count_active_achievements(subset); } rc_client_update_legacy_runtime_achievements(game, active_count); } static uint32_t rc_client_subset_toggle_hardcore_achievements(rc_client_subset_info_t* subset, rc_client_t* client, uint8_t active_bit) { rc_client_achievement_info_t* achievement = subset->achievements; rc_client_achievement_info_t* stop = achievement + subset->public_.num_achievements; uint32_t active_count = 0; for (; achievement < stop; ++achievement) { if ((achievement->public_.unlocked & active_bit) == 0) { switch (achievement->public_.state) { case RC_CLIENT_ACHIEVEMENT_STATE_UNLOCKED: case RC_CLIENT_ACHIEVEMENT_STATE_INACTIVE: rc_reset_trigger(achievement->trigger); achievement->public_.state = RC_CLIENT_ACHIEVEMENT_STATE_ACTIVE; ++active_count; break; case RC_CLIENT_ACHIEVEMENT_STATE_ACTIVE: ++active_count; break; } } else if (achievement->public_.state == RC_CLIENT_ACHIEVEMENT_STATE_ACTIVE || achievement->public_.state == RC_CLIENT_ACHIEVEMENT_STATE_INACTIVE) { /* if it's active despite being unlocked, and we're in encore mode, leave it active */ if (client->state.encore_mode) { ++active_count; continue; } achievement->public_.state = RC_CLIENT_ACHIEVEMENT_STATE_UNLOCKED; achievement->public_.unlock_time = (active_bit == RC_CLIENT_ACHIEVEMENT_UNLOCKED_HARDCORE) ? achievement->unlock_time_hardcore : achievement->unlock_time_softcore; if (achievement->trigger && achievement->trigger->state == RC_TRIGGER_STATE_PRIMED) { rc_client_event_t client_event; memset(&client_event, 0, sizeof(client_event)); client_event.type = RC_CLIENT_EVENT_ACHIEVEMENT_CHALLENGE_INDICATOR_HIDE; client_event.achievement = &achievement->public_; client->callbacks.event_handler(&client_event, client); } if (achievement->trigger && rc_trigger_state_active(achievement->trigger->state)) achievement->trigger->state = RC_TRIGGER_STATE_TRIGGERED; } } return active_count; } static void rc_client_toggle_hardcore_achievements(rc_client_game_info_t* game, rc_client_t* client, uint8_t active_bit) { uint32_t active_count = 0; rc_client_subset_info_t* subset = game->subsets; for (; subset; subset = subset->next) { if (subset->active) active_count += rc_client_subset_toggle_hardcore_achievements(subset, client, active_bit); } rc_client_update_legacy_runtime_achievements(game, active_count); } static void rc_client_activate_achievements(rc_client_game_info_t* game, rc_client_t* client) { const uint8_t active_bit = (client->state.encore_mode) ? RC_CLIENT_ACHIEVEMENT_UNLOCKED_NONE : (client->state.hardcore) ? RC_CLIENT_ACHIEVEMENT_UNLOCKED_HARDCORE : RC_CLIENT_ACHIEVEMENT_UNLOCKED_SOFTCORE; rc_client_toggle_hardcore_achievements(game, client, active_bit); } static void rc_client_update_legacy_runtime_leaderboards(rc_client_game_info_t* game, uint32_t active_count) { if (active_count > 0) { rc_client_leaderboard_info_t* leaderboard; rc_client_leaderboard_info_t* stop; rc_client_subset_info_t* subset; rc_runtime_lboard_t* lboard; if (active_count <= game->runtime.lboard_capacity) { if (active_count != 0) memset(game->runtime.lboards, 0, active_count * sizeof(rc_runtime_lboard_t)); } else { if (game->runtime.lboards) free(game->runtime.lboards); game->runtime.lboard_capacity = active_count; game->runtime.lboards = (rc_runtime_lboard_t*)calloc(1, active_count * sizeof(rc_runtime_lboard_t)); } lboard = game->runtime.lboards; if (!lboard) { /* malloc failed. no way to report error, just bail */ game->runtime.lboard_count = 0; return; } for (subset = game->subsets; subset; subset = subset->next) { if (!subset->active) continue; leaderboard = subset->leaderboards; stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < stop; ++leaderboard) { if (leaderboard->public_.state == RC_CLIENT_LEADERBOARD_STATE_ACTIVE || leaderboard->public_.state == RC_CLIENT_LEADERBOARD_STATE_TRACKING) { lboard->id = leaderboard->public_.id; memcpy(lboard->md5, leaderboard->md5, 16); lboard->lboard = leaderboard->lboard; ++lboard; } } } } game->runtime.lboard_count = active_count; } void rc_client_update_active_leaderboards(rc_client_game_info_t* game) { rc_client_leaderboard_info_t* leaderboard; rc_client_leaderboard_info_t* stop; uint32_t active_count = 0; rc_client_subset_info_t* subset = game->subsets; for (; subset; subset = subset->next) { if (!subset->active) continue; leaderboard = subset->leaderboards; stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < stop; ++leaderboard) { switch (leaderboard->public_.state) { case RC_CLIENT_LEADERBOARD_STATE_ACTIVE: case RC_CLIENT_LEADERBOARD_STATE_TRACKING: ++active_count; break; } } } rc_client_update_legacy_runtime_leaderboards(game, active_count); } static void rc_client_activate_leaderboards(rc_client_game_info_t* game, rc_client_t* client) { rc_client_leaderboard_info_t* leaderboard; rc_client_leaderboard_info_t* stop; uint32_t active_count = 0; rc_client_subset_info_t* subset = game->subsets; for (; subset; subset = subset->next) { if (!subset->active) continue; leaderboard = subset->leaderboards; stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < stop; ++leaderboard) { switch (leaderboard->public_.state) { case RC_CLIENT_LEADERBOARD_STATE_DISABLED: continue; case RC_CLIENT_LEADERBOARD_STATE_INACTIVE: if (client->state.hardcore) { rc_reset_lboard(leaderboard->lboard); leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_ACTIVE; ++active_count; } break; default: if (client->state.hardcore) ++active_count; else leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_INACTIVE; break; } } } rc_client_update_legacy_runtime_leaderboards(game, active_count); } static void rc_client_deactivate_leaderboards(rc_client_game_info_t* game, rc_client_t* client) { rc_client_leaderboard_info_t* leaderboard; rc_client_leaderboard_info_t* stop; rc_client_subset_info_t* subset = game->subsets; for (; subset; subset = subset->next) { if (!subset->active) continue; leaderboard = subset->leaderboards; stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < stop; ++leaderboard) { switch (leaderboard->public_.state) { case RC_CLIENT_LEADERBOARD_STATE_DISABLED: case RC_CLIENT_LEADERBOARD_STATE_INACTIVE: continue; case RC_CLIENT_LEADERBOARD_STATE_TRACKING: rc_client_release_leaderboard_tracker(client->game, leaderboard); /* fallthrough */ /* to default */ default: leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_INACTIVE; break; } } } game->runtime.lboard_count = 0; } static void rc_client_apply_unlocks(rc_client_subset_info_t* subset, rc_api_unlock_entry_t* unlocks, uint32_t num_unlocks, uint8_t mode) { rc_client_achievement_info_t* start = subset->achievements; rc_client_achievement_info_t* stop = start + subset->public_.num_achievements; rc_client_achievement_info_t* scan; rc_api_unlock_entry_t* unlock = unlocks; rc_api_unlock_entry_t* unlock_stop = unlocks + num_unlocks; for (; unlock < unlock_stop; ++unlock) { for (scan = start; scan < stop; ++scan) { if (scan->public_.id == unlock->achievement_id) { scan->public_.unlocked |= mode; if (mode & RC_CLIENT_ACHIEVEMENT_UNLOCKED_HARDCORE) scan->unlock_time_hardcore = unlock->when; if (mode & RC_CLIENT_ACHIEVEMENT_UNLOCKED_SOFTCORE) scan->unlock_time_softcore = unlock->when; if (scan == start) ++start; else if (scan + 1 == stop) --stop; break; } } } } static void rc_client_activate_game(rc_client_load_state_t* load_state, rc_api_start_session_response_t *start_session_response) { rc_client_t* client = load_state->client; rc_mutex_lock(&client->state.mutex); load_state->progress = (client->state.load == load_state) ? RC_CLIENT_LOAD_STATE_DONE : RC_CLIENT_LOAD_STATE_UNKNOWN_GAME; client->state.load = NULL; rc_mutex_unlock(&client->state.mutex); if (load_state->progress != RC_CLIENT_LOAD_STATE_DONE) { /* previous load state was aborted */ if (load_state->callback) load_state->callback(RC_ABORTED, "The requested game is no longer active", client, load_state->callback_userdata); } else if (!start_session_response && client->state.spectator_mode == RC_CLIENT_SPECTATOR_MODE_OFF) { /* unlocks not available - assume malloc failed */ if (load_state->callback) load_state->callback(RC_INVALID_STATE, "Unlock arrays were not allocated", client, load_state->callback_userdata); } else { if (client->state.spectator_mode == RC_CLIENT_SPECTATOR_MODE_OFF) { rc_client_apply_unlocks(load_state->subset, start_session_response->hardcore_unlocks, start_session_response->num_hardcore_unlocks, RC_CLIENT_ACHIEVEMENT_UNLOCKED_BOTH); rc_client_apply_unlocks(load_state->subset, start_session_response->unlocks, start_session_response->num_unlocks, RC_CLIENT_ACHIEVEMENT_UNLOCKED_SOFTCORE); } rc_mutex_lock(&client->state.mutex); if (client->state.load == NULL) client->game = load_state->game; rc_mutex_unlock(&client->state.mutex); if (client->game != load_state->game) { /* previous load state was aborted */ if (load_state->callback) load_state->callback(RC_ABORTED, "The requested game is no longer active", client, load_state->callback_userdata); } else { /* if a change media request is pending, kick it off */ rc_client_pending_media_t* pending_media; rc_mutex_lock(&load_state->client->state.mutex); pending_media = load_state->pending_media; load_state->pending_media = NULL; rc_mutex_unlock(&load_state->client->state.mutex); if (pending_media) { rc_client_begin_change_media(client, pending_media->file_path, pending_media->data, pending_media->data_size, pending_media->callback, pending_media->callback_userdata); if (pending_media->data) free(pending_media->data); free((void*)pending_media->file_path); free(pending_media); } /* client->game must be set before calling this function so it can query the console_id */ rc_client_validate_addresses(load_state->game, client); rc_client_activate_achievements(load_state->game, client); rc_client_activate_leaderboards(load_state->game, client); if (load_state->hash->hash[0] != '[') { if (load_state->client->state.spectator_mode != RC_CLIENT_SPECTATOR_MODE_LOCKED) { /* schedule the periodic ping */ rc_client_scheduled_callback_data_t* callback_data = rc_buffer_alloc(&load_state->game->buffer, sizeof(rc_client_scheduled_callback_data_t)); memset(callback_data, 0, sizeof(*callback_data)); callback_data->callback = rc_client_ping; callback_data->related_id = load_state->game->public_.id; callback_data->when = client->callbacks.get_time_millisecs(client) + 30 * 1000; rc_client_schedule_callback(client, callback_data); } RC_CLIENT_LOG_INFO_FORMATTED(client, "Game %u loaded, hardcore %s%s", load_state->game->public_.id, client->state.hardcore ? "enabled" : "disabled", (client->state.spectator_mode != RC_CLIENT_SPECTATOR_MODE_OFF) ? ", spectating" : ""); } else { RC_CLIENT_LOG_INFO_FORMATTED(client, "Subset %u loaded", load_state->subset->public_.id); } if (load_state->callback) load_state->callback(RC_OK, NULL, client, load_state->callback_userdata); /* detach the game object so it doesn't get freed by free_load_state */ load_state->game = NULL; } } rc_client_free_load_state(load_state); } static void rc_client_start_session_callback(const rc_api_server_response_t* server_response, void* callback_data) { rc_client_load_state_t* load_state = (rc_client_load_state_t*)callback_data; rc_api_start_session_response_t start_session_response; int outstanding_requests; const char* error_message; int result; result = rc_client_end_async(load_state->client, &load_state->async_handle); if (result) { if (result != RC_CLIENT_ASYNC_DESTROYED) { rc_client_t* client = load_state->client; rc_client_load_aborted(load_state); RC_CLIENT_LOG_VERBOSE(client, "Load aborted while starting session"); } else { rc_client_free_load_state(load_state); } return; } result = rc_api_process_start_session_server_response(&start_session_response, server_response); error_message = rc_client_server_error_message(&result, server_response->http_status_code, &start_session_response.response); outstanding_requests = rc_client_end_load_state(load_state); if (error_message) { rc_client_load_error(callback_data, result, error_message); } else if (outstanding_requests < 0) { /* previous load state was aborted, load_state was free'd */ } else if (outstanding_requests == 0) { rc_client_activate_game(load_state, &start_session_response); } else { load_state->start_session_response = (rc_api_start_session_response_t*)malloc(sizeof(rc_api_start_session_response_t)); if (!load_state->start_session_response) { rc_client_load_error(callback_data, RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY)); } else { /* safer to parse the response again than to try to copy it */ rc_api_process_start_session_response(load_state->start_session_response, server_response->body); } } rc_api_destroy_start_session_response(&start_session_response); } static void rc_client_begin_start_session(rc_client_load_state_t* load_state) { rc_api_start_session_request_t start_session_params; rc_client_t* client = load_state->client; rc_api_request_t start_session_request; int result; memset(&start_session_params, 0, sizeof(start_session_params)); start_session_params.username = client->user.username; start_session_params.api_token = client->user.token; start_session_params.game_id = load_state->hash->game_id; start_session_params.game_hash = load_state->hash->hash; start_session_params.hardcore = client->state.hardcore; result = rc_api_init_start_session_request(&start_session_request, &start_session_params); if (result != RC_OK) { rc_client_load_error(load_state, result, rc_error_str(result)); } else { rc_client_begin_load_state(load_state, RC_CLIENT_LOAD_STATE_STARTING_SESSION, 1); RC_CLIENT_LOG_VERBOSE_FORMATTED(client, "Starting session for game %u", start_session_params.game_id); rc_client_begin_async(client, &load_state->async_handle); client->callbacks.server_call(&start_session_request, rc_client_start_session_callback, load_state, client); rc_api_destroy_request(&start_session_request); } } static void rc_client_copy_achievements(rc_client_load_state_t* load_state, rc_client_subset_info_t* subset, const rc_api_achievement_definition_t* achievement_definitions, uint32_t num_achievements) { const rc_api_achievement_definition_t* read; const rc_api_achievement_definition_t* stop; rc_client_achievement_info_t* achievements; rc_client_achievement_info_t* achievement; rc_client_achievement_info_t* scan; rc_buffer_t* buffer; rc_parse_state_t parse; const char* memaddr; size_t size; int trigger_size; subset->achievements = NULL; subset->public_.num_achievements = num_achievements; if (num_achievements == 0) return; stop = achievement_definitions + num_achievements; /* if not testing unofficial, filter them out */ if (!load_state->client->state.unofficial_enabled) { for (read = achievement_definitions; read < stop; ++read) { if (read->category != RC_ACHIEVEMENT_CATEGORY_CORE) --num_achievements; } subset->public_.num_achievements = num_achievements; if (num_achievements == 0) return; } /* preallocate space for achievements */ size = 24 /* assume average title length of 24 */ + 48 /* assume average description length of 48 */ + sizeof(rc_trigger_t) + sizeof(rc_condset_t) * 2 /* trigger container */ + sizeof(rc_condition_t) * 8 /* assume average trigger length of 8 conditions */ + sizeof(rc_client_achievement_info_t); rc_buffer_reserve(&load_state->game->buffer, size * num_achievements); /* allocate the achievement array */ size = sizeof(rc_client_achievement_info_t) * num_achievements; buffer = &load_state->game->buffer; achievement = achievements = rc_buffer_alloc(buffer, size); memset(achievements, 0, size); /* copy the achievement data */ for (read = achievement_definitions; read < stop; ++read) { if (read->category != RC_ACHIEVEMENT_CATEGORY_CORE && !load_state->client->state.unofficial_enabled) continue; achievement->public_.title = rc_buffer_strcpy(buffer, read->title); achievement->public_.description = rc_buffer_strcpy(buffer, read->description); snprintf(achievement->public_.badge_name, sizeof(achievement->public_.badge_name), "%s", read->badge_name); achievement->public_.id = read->id; achievement->public_.points = read->points; achievement->public_.category = (read->category != RC_ACHIEVEMENT_CATEGORY_CORE) ? RC_CLIENT_ACHIEVEMENT_CATEGORY_UNOFFICIAL : RC_CLIENT_ACHIEVEMENT_CATEGORY_CORE; achievement->public_.rarity = read->rarity; achievement->public_.rarity_hardcore = read->rarity_hardcore; achievement->public_.type = read->type; /* assert: mapping is 1:1 */ memaddr = read->definition; rc_runtime_checksum(memaddr, achievement->md5); trigger_size = rc_trigger_size(memaddr); if (trigger_size < 0) { RC_CLIENT_LOG_WARN_FORMATTED(load_state->client, "Parse error %d processing achievement %u", trigger_size, read->id); achievement->public_.state = RC_CLIENT_ACHIEVEMENT_STATE_DISABLED; achievement->public_.bucket = RC_CLIENT_ACHIEVEMENT_BUCKET_UNSUPPORTED; } else { /* populate the item, using the communal memrefs pool */ rc_init_parse_state(&parse, rc_buffer_reserve(buffer, trigger_size), NULL, 0); parse.first_memref = &load_state->game->runtime.memrefs; parse.variables = &load_state->game->runtime.variables; achievement->trigger = RC_ALLOC(rc_trigger_t, &parse); rc_parse_trigger_internal(achievement->trigger, &memaddr, &parse); if (parse.offset < 0) { RC_CLIENT_LOG_WARN_FORMATTED(load_state->client, "Parse error %d processing achievement %u", parse.offset, read->id); achievement->public_.state = RC_CLIENT_ACHIEVEMENT_STATE_DISABLED; achievement->public_.bucket = RC_CLIENT_ACHIEVEMENT_BUCKET_UNSUPPORTED; } else { rc_buffer_consume(buffer, parse.buffer, (uint8_t*)parse.buffer + parse.offset); achievement->trigger->memrefs = NULL; /* memrefs managed by runtime */ } rc_destroy_parse_state(&parse); } achievement->created_time = read->created; achievement->updated_time = read->updated; scan = achievement; while (scan > achievements) { --scan; if (strcmp(scan->author, read->author) == 0) { achievement->author = scan->author; break; } } if (!achievement->author) achievement->author = rc_buffer_strcpy(buffer, read->author); ++achievement; } subset->achievements = achievements; } uint8_t rc_client_map_leaderboard_format(int format) { switch (format) { case RC_FORMAT_SECONDS: case RC_FORMAT_CENTISECS: case RC_FORMAT_MINUTES: case RC_FORMAT_SECONDS_AS_MINUTES: case RC_FORMAT_FRAMES: return RC_CLIENT_LEADERBOARD_FORMAT_TIME; case RC_FORMAT_SCORE: return RC_CLIENT_LEADERBOARD_FORMAT_SCORE; case RC_FORMAT_VALUE: case RC_FORMAT_FLOAT1: case RC_FORMAT_FLOAT2: case RC_FORMAT_FLOAT3: case RC_FORMAT_FLOAT4: case RC_FORMAT_FLOAT5: case RC_FORMAT_FLOAT6: case RC_FORMAT_FIXED1: case RC_FORMAT_FIXED2: case RC_FORMAT_FIXED3: case RC_FORMAT_TENS: case RC_FORMAT_HUNDREDS: case RC_FORMAT_THOUSANDS: case RC_FORMAT_UNSIGNED_VALUE: default: return RC_CLIENT_LEADERBOARD_FORMAT_VALUE; } } static void rc_client_copy_leaderboards(rc_client_load_state_t* load_state, rc_client_subset_info_t* subset, const rc_api_leaderboard_definition_t* leaderboard_definitions, uint32_t num_leaderboards) { const rc_api_leaderboard_definition_t* read; const rc_api_leaderboard_definition_t* stop; rc_client_leaderboard_info_t* leaderboards; rc_client_leaderboard_info_t* leaderboard; rc_buffer_t* buffer; rc_parse_state_t parse; const char* memaddr; const char* ptr; size_t size; int lboard_size; subset->leaderboards = NULL; subset->public_.num_leaderboards = num_leaderboards; if (num_leaderboards == 0) return; /* preallocate space for achievements */ size = 24 /* assume average title length of 24 */ + 48 /* assume average description length of 48 */ + sizeof(rc_lboard_t) /* lboard container */ + (sizeof(rc_trigger_t) + sizeof(rc_condset_t) * 2) * 3 /* start/submit/cancel */ + (sizeof(rc_value_t) + sizeof(rc_condset_t)) /* value */ + sizeof(rc_condition_t) * 4 * 4 /* assume average of 4 conditions in each start/submit/cancel/value */ + sizeof(rc_client_leaderboard_info_t); rc_buffer_reserve(&load_state->game->buffer, size * num_leaderboards); /* allocate the achievement array */ size = sizeof(rc_client_leaderboard_info_t) * num_leaderboards; buffer = &load_state->game->buffer; leaderboard = leaderboards = rc_buffer_alloc(buffer, size); memset(leaderboards, 0, size); /* copy the achievement data */ read = leaderboard_definitions; stop = read + num_leaderboards; do { leaderboard->public_.title = rc_buffer_strcpy(buffer, read->title); leaderboard->public_.description = rc_buffer_strcpy(buffer, read->description); leaderboard->public_.id = read->id; leaderboard->public_.format = rc_client_map_leaderboard_format(read->format); leaderboard->public_.lower_is_better = read->lower_is_better; leaderboard->format = (uint8_t)read->format; leaderboard->hidden = (uint8_t)read->hidden; memaddr = read->definition; rc_runtime_checksum(memaddr, leaderboard->md5); ptr = strstr(memaddr, "VAL:"); if (ptr != NULL) { /* calculate the DJB2 hash of the VAL portion of the string*/ uint32_t hash = 5381; ptr += 4; /* skip 'VAL:' */ while (*ptr && (ptr[0] != ':' || ptr[1] != ':')) hash = (hash << 5) + hash + *ptr++; leaderboard->value_djb2 = hash; } lboard_size = rc_lboard_size(memaddr); if (lboard_size < 0) { RC_CLIENT_LOG_WARN_FORMATTED(load_state->client, "Parse error %d processing leaderboard %u", lboard_size, read->id); leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_DISABLED; } else { /* populate the item, using the communal memrefs pool */ rc_init_parse_state(&parse, rc_buffer_reserve(buffer, lboard_size), NULL, 0); parse.first_memref = &load_state->game->runtime.memrefs; parse.variables = &load_state->game->runtime.variables; leaderboard->lboard = RC_ALLOC(rc_lboard_t, &parse); rc_parse_lboard_internal(leaderboard->lboard, memaddr, &parse); if (parse.offset < 0) { RC_CLIENT_LOG_WARN_FORMATTED(load_state->client, "Parse error %d processing leaderboard %u", parse.offset, read->id); leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_DISABLED; } else { rc_buffer_consume(buffer, parse.buffer, (uint8_t*)parse.buffer + parse.offset); leaderboard->lboard->memrefs = NULL; /* memrefs managed by runtime */ } rc_destroy_parse_state(&parse); } ++leaderboard; ++read; } while (read < stop); subset->leaderboards = leaderboards; } static const char* rc_client_subset_extract_title(rc_client_game_info_t* game, const char* title) { const char* subset_prefix = strstr(title, "[Subset - "); if (subset_prefix) { const char* start = subset_prefix + 10; const char* stop = strstr(start, "]"); const size_t len = stop - start; char* result = (char*)rc_buffer_alloc(&game->buffer, len + 1); memcpy(result, start, len); result[len] = '\0'; return result; } return NULL; } static void rc_client_fetch_game_data_callback(const rc_api_server_response_t* server_response, void* callback_data) { rc_client_load_state_t* load_state = (rc_client_load_state_t*)callback_data; rc_api_fetch_game_data_response_t fetch_game_data_response; int outstanding_requests; const char* error_message; int result; result = rc_client_end_async(load_state->client, &load_state->async_handle); if (result) { if (result != RC_CLIENT_ASYNC_DESTROYED) { rc_client_t* client = load_state->client; rc_client_load_aborted(load_state); RC_CLIENT_LOG_VERBOSE(client, "Load aborted while fetching game data"); } else { rc_client_free_load_state(load_state); } return; } result = rc_api_process_fetch_game_data_server_response(&fetch_game_data_response, server_response); error_message = rc_client_server_error_message(&result, server_response->http_status_code, &fetch_game_data_response.response); outstanding_requests = rc_client_end_load_state(load_state); if (error_message) { rc_client_load_error(load_state, result, error_message); } else if (outstanding_requests < 0) { /* previous load state was aborted, load_state was free'd */ } else { rc_client_subset_info_t* subset; subset = (rc_client_subset_info_t*)rc_buffer_alloc(&load_state->game->buffer, sizeof(rc_client_subset_info_t)); memset(subset, 0, sizeof(*subset)); subset->public_.id = fetch_game_data_response.id; subset->active = 1; snprintf(subset->public_.badge_name, sizeof(subset->public_.badge_name), "%s", fetch_game_data_response.image_name); load_state->subset = subset; if (load_state->game->public_.console_id != RC_CONSOLE_UNKNOWN && fetch_game_data_response.console_id != load_state->game->public_.console_id) { RC_CLIENT_LOG_WARN_FORMATTED(load_state->client, "Data for game %u is for console %u, expecting console %u", fetch_game_data_response.id, fetch_game_data_response.console_id, load_state->game->public_.console_id); } /* kick off the start session request while we process the game data */ rc_client_begin_load_state(load_state, RC_CLIENT_LOAD_STATE_STARTING_SESSION, 1); if (load_state->client->state.spectator_mode != RC_CLIENT_SPECTATOR_MODE_OFF) { /* we can't unlock achievements without a session, lock spectator mode for the game */ load_state->client->state.spectator_mode = RC_CLIENT_SPECTATOR_MODE_LOCKED; } else { rc_client_begin_start_session(load_state); } /* process the game data */ rc_client_copy_achievements(load_state, subset, fetch_game_data_response.achievements, fetch_game_data_response.num_achievements); rc_client_copy_leaderboards(load_state, subset, fetch_game_data_response.leaderboards, fetch_game_data_response.num_leaderboards); if (!load_state->game->subsets) { /* core set */ rc_mutex_lock(&load_state->client->state.mutex); load_state->game->public_.title = rc_buffer_strcpy(&load_state->game->buffer, fetch_game_data_response.title); load_state->game->subsets = subset; load_state->game->public_.badge_name = subset->public_.badge_name; load_state->game->public_.console_id = fetch_game_data_response.console_id; rc_mutex_unlock(&load_state->client->state.mutex); subset->public_.title = load_state->game->public_.title; if (fetch_game_data_response.rich_presence_script && fetch_game_data_response.rich_presence_script[0]) { result = rc_runtime_activate_richpresence(&load_state->game->runtime, fetch_game_data_response.rich_presence_script, NULL, 0); if (result != RC_OK) { RC_CLIENT_LOG_WARN_FORMATTED(load_state->client, "Parse error %d processing rich presence", result); } } } else { rc_client_subset_info_t* scan; /* subset - extract subset title */ subset->public_.title = rc_client_subset_extract_title(load_state->game, fetch_game_data_response.title); if (!subset->public_.title) { const char* core_subset_title = rc_client_subset_extract_title(load_state->game, load_state->game->public_.title); if (core_subset_title) { rc_client_subset_info_t* scan = load_state->game->subsets; for (; scan; scan = scan->next) { if (scan->public_.title == load_state->game->public_.title) { scan->public_.title = core_subset_title; break; } } } subset->public_.title = rc_buffer_strcpy(&load_state->game->buffer, fetch_game_data_response.title); } /* append to subset list */ scan = load_state->game->subsets; while (scan->next) scan = scan->next; scan->next = subset; } if (load_state->client->callbacks.post_process_game_data_response) { load_state->client->callbacks.post_process_game_data_response(server_response, &fetch_game_data_response, load_state->client, load_state->callback_userdata); } outstanding_requests = rc_client_end_load_state(load_state); if (outstanding_requests < 0) { /* previous load state was aborted, load_state was free'd */ } else { if (outstanding_requests == 0) rc_client_activate_game(load_state, load_state->start_session_response); } } rc_api_destroy_fetch_game_data_response(&fetch_game_data_response); } static void rc_client_begin_fetch_game_data(rc_client_load_state_t* load_state) { rc_api_fetch_game_data_request_t fetch_game_data_request; rc_client_t* client = load_state->client; rc_api_request_t request; int result; if (load_state->hash->game_id == 0) { char hash[33]; if (rc_hash_iterate(hash, &load_state->hash_iterator)) { /* found another hash to try */ load_state->hash_console_id = load_state->hash_iterator.consoles[load_state->hash_iterator.index - 1]; rc_client_load_game(load_state, hash, NULL); return; } if (load_state->game->media_hash && load_state->game->media_hash->game_hash && load_state->game->media_hash->game_hash->next) { /* multiple hashes were tried, create a CSV */ struct rc_client_game_hash_t* game_hash = load_state->game->media_hash->game_hash; int count = 1; char* ptr; size_t size; size = strlen(game_hash->hash) + 1; while (game_hash->next) { game_hash = game_hash->next; size += strlen(game_hash->hash) + 1; count++; } ptr = (char*)rc_buffer_alloc(&load_state->game->buffer, size); ptr += size - 1; *ptr = '\0'; game_hash = load_state->game->media_hash->game_hash; do { const size_t hash_len = strlen(game_hash->hash); ptr -= hash_len; memcpy(ptr, game_hash->hash, hash_len); game_hash = game_hash->next; if (!game_hash) break; ptr--; *ptr = ','; } while (1); load_state->game->public_.hash = ptr; load_state->game->public_.console_id = RC_CONSOLE_UNKNOWN; } else { /* only a single hash was tried, capture it */ load_state->game->public_.console_id = load_state->hash_console_id; load_state->game->public_.hash = load_state->hash->hash; } load_state->game->public_.title = "Unknown Game"; load_state->game->public_.badge_name = ""; client->game = load_state->game; load_state->game = NULL; rc_client_load_error(load_state, RC_NO_GAME_LOADED, "Unknown game"); return; } if (load_state->hash->hash[0] != '[') { load_state->game->public_.id = load_state->hash->game_id; load_state->game->public_.hash = load_state->hash->hash; } /* done with the hashing code, release the global pointer */ g_hash_client = NULL; rc_mutex_lock(&client->state.mutex); result = client->state.user; if (result == RC_CLIENT_USER_STATE_LOGIN_REQUESTED) load_state->progress = RC_CLIENT_LOAD_STATE_AWAIT_LOGIN; rc_mutex_unlock(&client->state.mutex); switch (result) { case RC_CLIENT_USER_STATE_LOGGED_IN: break; case RC_CLIENT_USER_STATE_LOGIN_REQUESTED: /* do nothing, this function will be called again after login completes */ return; default: rc_client_load_error(load_state, RC_LOGIN_REQUIRED, rc_error_str(RC_LOGIN_REQUIRED)); return; } memset(&fetch_game_data_request, 0, sizeof(fetch_game_data_request)); fetch_game_data_request.username = client->user.username; fetch_game_data_request.api_token = client->user.token; fetch_game_data_request.game_id = load_state->hash->game_id; result = rc_api_init_fetch_game_data_request(&request, &fetch_game_data_request); if (result != RC_OK) { rc_client_load_error(load_state, result, rc_error_str(result)); return; } rc_client_begin_load_state(load_state, RC_CLIENT_LOAD_STATE_FETCHING_GAME_DATA, 1); RC_CLIENT_LOG_VERBOSE_FORMATTED(client, "Fetching data for game %u", fetch_game_data_request.game_id); rc_client_begin_async(client, &load_state->async_handle); client->callbacks.server_call(&request, rc_client_fetch_game_data_callback, load_state, client); rc_api_destroy_request(&request); } static void rc_client_identify_game_callback(const rc_api_server_response_t* server_response, void* callback_data) { rc_client_load_state_t* load_state = (rc_client_load_state_t*)callback_data; rc_client_t* client = load_state->client; rc_api_resolve_hash_response_t resolve_hash_response; int outstanding_requests; const char* error_message; int result; result = rc_client_end_async(client, &load_state->async_handle); if (result) { if (result != RC_CLIENT_ASYNC_DESTROYED) { rc_client_load_aborted(load_state); RC_CLIENT_LOG_VERBOSE(client, "Load aborted during game identification"); } else { rc_client_free_load_state(load_state); } return; } result = rc_api_process_resolve_hash_server_response(&resolve_hash_response, server_response); error_message = rc_client_server_error_message(&result, server_response->http_status_code, &resolve_hash_response.response); if (error_message) { rc_client_end_load_state(load_state); rc_client_load_error(load_state, result, error_message); } else { /* hash exists outside the load state - always update it */ load_state->hash->game_id = resolve_hash_response.game_id; RC_CLIENT_LOG_INFO_FORMATTED(client, "Identified game: %u (%s)", load_state->hash->game_id, load_state->hash->hash); /* have to call end_load_state after updating hash in case the load_state gets free'd */ outstanding_requests = rc_client_end_load_state(load_state); if (outstanding_requests < 0) { /* previous load state was aborted, load_state was free'd */ } else { rc_client_begin_fetch_game_data(load_state); } } rc_api_destroy_resolve_hash_response(&resolve_hash_response); } rc_client_game_hash_t* rc_client_find_game_hash(rc_client_t* client, const char* hash) { rc_client_game_hash_t* game_hash; rc_mutex_lock(&client->state.mutex); game_hash = client->hashes; while (game_hash) { if (strcasecmp(game_hash->hash, hash) == 0) break; game_hash = game_hash->next; } if (!game_hash) { game_hash = rc_buffer_alloc(&client->state.buffer, sizeof(rc_client_game_hash_t)); memset(game_hash, 0, sizeof(*game_hash)); snprintf(game_hash->hash, sizeof(game_hash->hash), "%s", hash); game_hash->game_id = RC_CLIENT_UNKNOWN_GAME_ID; game_hash->next = client->hashes; client->hashes = game_hash; } rc_mutex_unlock(&client->state.mutex); return game_hash; } static rc_client_async_handle_t* rc_client_load_game(rc_client_load_state_t* load_state, const char* hash, const char* file_path) { rc_client_t* client = load_state->client; rc_client_game_hash_t* old_hash; if (client->state.load == NULL) { rc_client_unload_game(client); client->state.load = load_state; if (load_state->game == NULL) { load_state->game = (rc_client_game_info_t*)calloc(1, sizeof(*load_state->game)); if (!load_state->game) { if (load_state->callback) load_state->callback(RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY), client, load_state->callback_userdata); rc_client_free_load_state(load_state); return NULL; } rc_buffer_init(&load_state->game->buffer); rc_runtime_init(&load_state->game->runtime); } } else if (client->state.load != load_state) { /* previous load was aborted */ if (load_state->callback) load_state->callback(RC_ABORTED, "The requested game is no longer active", client, load_state->callback_userdata); rc_client_free_load_state(load_state); return NULL; } old_hash = load_state->hash; load_state->hash = rc_client_find_game_hash(client, hash); if (file_path) { rc_client_media_hash_t* media_hash = (rc_client_media_hash_t*)rc_buffer_alloc(&load_state->game->buffer, sizeof(*media_hash)); media_hash->game_hash = load_state->hash; media_hash->path_djb2 = rc_djb2(file_path); media_hash->next = load_state->game->media_hash; load_state->game->media_hash = media_hash; } else if (load_state->game->media_hash && load_state->game->media_hash->game_hash == old_hash) { load_state->game->media_hash->game_hash = load_state->hash; } if (load_state->hash->game_id == RC_CLIENT_UNKNOWN_GAME_ID) { rc_api_resolve_hash_request_t resolve_hash_request; rc_api_request_t request; int result; memset(&resolve_hash_request, 0, sizeof(resolve_hash_request)); resolve_hash_request.game_hash = hash; result = rc_api_init_resolve_hash_request(&request, &resolve_hash_request); if (result != RC_OK) { rc_client_load_error(load_state, result, rc_error_str(result)); return NULL; } rc_client_begin_load_state(load_state, RC_CLIENT_LOAD_STATE_IDENTIFYING_GAME, 1); rc_client_begin_async(client, &load_state->async_handle); client->callbacks.server_call(&request, rc_client_identify_game_callback, load_state, client); rc_api_destroy_request(&request); } else { RC_CLIENT_LOG_INFO_FORMATTED(client, "Identified game: %u (%s)", load_state->hash->game_id, load_state->hash->hash); rc_client_begin_fetch_game_data(load_state); } return (client->state.load == load_state) ? &load_state->async_handle : NULL; } rc_hash_iterator_t* rc_client_get_load_state_hash_iterator(rc_client_t* client) { if (client && client->state.load) return &client->state.load->hash_iterator; return NULL; } rc_client_async_handle_t* rc_client_begin_load_game(rc_client_t* client, const char* hash, rc_client_callback_t callback, void* callback_userdata) { rc_client_load_state_t* load_state; if (!client) { callback(RC_INVALID_STATE, "client is required", client, callback_userdata); return NULL; } if (!hash || !hash[0]) { callback(RC_INVALID_STATE, "hash is required", client, callback_userdata); return NULL; } #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->begin_load_game) return client->state.external_client->begin_load_game(client, hash, callback, callback_userdata); #endif load_state = (rc_client_load_state_t*)calloc(1, sizeof(*load_state)); if (!load_state) { callback(RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY), client, callback_userdata); return NULL; } load_state->client = client; load_state->callback = callback; load_state->callback_userdata = callback_userdata; return rc_client_load_game(load_state, hash, NULL); } rc_client_async_handle_t* rc_client_begin_identify_and_load_game(rc_client_t* client, uint32_t console_id, const char* file_path, const uint8_t* data, size_t data_size, rc_client_callback_t callback, void* callback_userdata) { rc_client_load_state_t* load_state; char hash[33]; if (!client) { callback(RC_INVALID_STATE, "client is required", client, callback_userdata); return NULL; } #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->begin_identify_and_load_game) return client->state.external_client->begin_identify_and_load_game(client, console_id, file_path, data, data_size, callback, callback_userdata); #endif if (data) { if (file_path) { RC_CLIENT_LOG_INFO_FORMATTED(client, "Identifying game: %zu bytes at %p (%s)", data_size, data, file_path); } else { RC_CLIENT_LOG_INFO_FORMATTED(client, "Identifying game: %zu bytes at %p", data_size, data); } } else if (file_path) { RC_CLIENT_LOG_INFO_FORMATTED(client, "Identifying game: %s", file_path); } else { callback(RC_INVALID_STATE, "either data or file_path is required", client, callback_userdata); return NULL; } if (client->state.log_level >= RC_CLIENT_LOG_LEVEL_INFO) { g_hash_client = client; rc_hash_init_error_message_callback(rc_client_log_hash_message); rc_hash_init_verbose_message_callback(rc_client_log_hash_message); } if (!file_path) file_path = "?"; load_state = (rc_client_load_state_t*)calloc(1, sizeof(*load_state)); if (!load_state) { callback(RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY), client, callback_userdata); return NULL; } load_state->client = client; load_state->callback = callback; load_state->callback_userdata = callback_userdata; if (console_id == RC_CONSOLE_UNKNOWN) { rc_hash_initialize_iterator(&load_state->hash_iterator, file_path, data, data_size); if (!rc_hash_iterate(hash, &load_state->hash_iterator)) { rc_client_load_error(load_state, RC_INVALID_STATE, "hash generation failed"); return NULL; } load_state->hash_console_id = load_state->hash_iterator.consoles[load_state->hash_iterator.index - 1]; } else { /* ASSERT: hash_iterator->index and hash_iterator->consoles[0] will be 0 from calloc */ load_state->hash_console_id = console_id; if (data != NULL) { if (!rc_hash_generate_from_buffer(hash, console_id, data, data_size)) { rc_client_load_error(load_state, RC_INVALID_STATE, "hash generation failed"); return NULL; } } else { if (!rc_hash_generate_from_file(hash, console_id, file_path)) { rc_client_load_error(load_state, RC_INVALID_STATE, "hash generation failed"); return NULL; } } } return rc_client_load_game(load_state, hash, file_path); } static void rc_client_game_mark_ui_to_be_hidden(rc_client_t* client, rc_client_game_info_t* game) { rc_client_achievement_info_t* achievement; rc_client_achievement_info_t* achievement_stop; rc_client_leaderboard_info_t* leaderboard; rc_client_leaderboard_info_t* leaderboard_stop; rc_client_subset_info_t* subset; for (subset = game->subsets; subset; subset = subset->next) { achievement = subset->achievements; achievement_stop = achievement + subset->public_.num_achievements; for (; achievement < achievement_stop; ++achievement) { if (achievement->public_.state == RC_CLIENT_ACHIEVEMENT_STATE_ACTIVE && achievement->trigger && achievement->trigger->state == RC_TRIGGER_STATE_PRIMED) { achievement->pending_events |= RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_CHALLENGE_INDICATOR_HIDE; subset->pending_events |= RC_CLIENT_SUBSET_PENDING_EVENT_ACHIEVEMENT; } } leaderboard = subset->leaderboards; leaderboard_stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < leaderboard_stop; ++leaderboard) { if (leaderboard->public_.state == RC_CLIENT_LEADERBOARD_STATE_TRACKING) rc_client_release_leaderboard_tracker(game, leaderboard); } } rc_client_hide_progress_tracker(client, game); } void rc_client_unload_game(rc_client_t* client) { rc_client_game_info_t* game; rc_client_scheduled_callback_data_t** last; rc_client_scheduled_callback_data_t* next; if (!client) return; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->unload_game) { client->state.external_client->unload_game(); return; } #endif rc_mutex_lock(&client->state.mutex); game = client->game; client->game = NULL; if (client->state.load) { /* this mimics rc_client_abort_async without nesting the lock */ client->state.load->async_handle.aborted = RC_CLIENT_ASYNC_ABORTED; client->state.load = NULL; } if (client->state.spectator_mode == RC_CLIENT_SPECTATOR_MODE_LOCKED) client->state.spectator_mode = RC_CLIENT_SPECTATOR_MODE_ON; if (game != NULL) rc_client_game_mark_ui_to_be_hidden(client, game); last = &client->state.scheduled_callbacks; do { next = *last; if (!next) break; /* remove rich presence ping scheduled event for game */ if (next->callback == rc_client_ping && game && next->related_id == game->public_.id) { *last = next->next; continue; } last = &next->next; } while (1); rc_mutex_unlock(&client->state.mutex); if (game != NULL) { rc_client_raise_pending_events(client, game); RC_CLIENT_LOG_INFO_FORMATTED(client, "Unloading game %u", game->public_.id); rc_client_free_game(game); } } static void rc_client_change_media(rc_client_t* client, const rc_client_game_hash_t* game_hash, rc_client_callback_t callback, void* callback_userdata) { if (game_hash->game_id == client->game->public_.id) { RC_CLIENT_LOG_INFO_FORMATTED(client, "Switching to valid media for game %u: %s", game_hash->game_id, game_hash->hash); } else if (game_hash->game_id == RC_CLIENT_UNKNOWN_GAME_ID) { RC_CLIENT_LOG_INFO(client, "Switching to unknown media"); } else if (game_hash->game_id == 0) { RC_CLIENT_LOG_INFO_FORMATTED(client, "Switching to unrecognized media: %s", game_hash->hash); } else { RC_CLIENT_LOG_INFO_FORMATTED(client, "Switching to known media for game %u: %s", game_hash->game_id, game_hash->hash); } client->game->public_.hash = game_hash->hash; callback(RC_OK, NULL, client, callback_userdata); } static void rc_client_identify_changed_media_callback(const rc_api_server_response_t* server_response, void* callback_data) { rc_client_load_state_t* load_state = (rc_client_load_state_t*)callback_data; rc_client_t* client = load_state->client; rc_api_resolve_hash_response_t resolve_hash_response; int result = rc_api_process_resolve_hash_server_response(&resolve_hash_response, server_response); const char* error_message = rc_client_server_error_message(&result, server_response->http_status_code, &resolve_hash_response.response); const int async_aborted = rc_client_end_async(client, &load_state->async_handle); if (async_aborted) { if (async_aborted != RC_CLIENT_ASYNC_DESTROYED) { RC_CLIENT_LOG_VERBOSE(client, "Media change aborted"); /* if lookup succeeded, still capture the new hash */ if (result == RC_OK) load_state->hash->game_id = resolve_hash_response.game_id; } } else if (client->game != load_state->game) { /* loaded game changed. return success regardless of result */ load_state->callback(RC_ABORTED, "The requested game is no longer active", client, load_state->callback_userdata); } else if (error_message) { load_state->callback(result, error_message, client, load_state->callback_userdata); } else { load_state->hash->game_id = resolve_hash_response.game_id; if (resolve_hash_response.game_id == 0 && client->state.hardcore) { RC_CLIENT_LOG_WARN_FORMATTED(client, "Disabling hardcore for unidentified media: %s", load_state->hash->hash); rc_client_set_hardcore_enabled(client, 0); client->game->public_.hash = load_state->hash->hash; /* do still update the loaded hash */ load_state->callback(RC_HARDCORE_DISABLED, "Hardcore disabled. Unidentified media inserted.", client, load_state->callback_userdata); } else { RC_CLIENT_LOG_INFO_FORMATTED(client, "Identified game: %u (%s)", load_state->hash->game_id, load_state->hash->hash); rc_client_change_media(client, load_state->hash, load_state->callback, load_state->callback_userdata); } } free(load_state); rc_api_destroy_resolve_hash_response(&resolve_hash_response); } rc_client_async_handle_t* rc_client_begin_change_media(rc_client_t* client, const char* file_path, const uint8_t* data, size_t data_size, rc_client_callback_t callback, void* callback_userdata) { rc_client_game_hash_t* game_hash = NULL; rc_client_media_hash_t* media_hash; rc_client_game_info_t* game; rc_client_pending_media_t* pending_media = NULL; uint32_t path_djb2; if (!client) { callback(RC_INVALID_STATE, "client is required", client, callback_userdata); return NULL; } if (!data && !file_path) { callback(RC_INVALID_STATE, "either data or file_path is required", client, callback_userdata); return NULL; } #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->begin_change_media) return client->state.external_client->begin_change_media(client, file_path, data, data_size, callback, callback_userdata); #endif rc_mutex_lock(&client->state.mutex); if (client->state.load) { game = client->state.load->game; if (game->public_.console_id == 0) { /* still waiting for game data */ pending_media = client->state.load->pending_media; if (pending_media) { if (pending_media->data) free(pending_media->data); free((void*)pending_media->file_path); free(pending_media); } pending_media = (rc_client_pending_media_t*)calloc(1, sizeof(*pending_media)); if (!pending_media) { rc_mutex_unlock(&client->state.mutex); callback(RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY), client, callback_userdata); return NULL; } pending_media->file_path = strdup(file_path); pending_media->callback = callback; pending_media->callback_userdata = callback_userdata; if (data && data_size) { pending_media->data_size = data_size; pending_media->data = (uint8_t*)malloc(data_size); if (!pending_media->data) { rc_mutex_unlock(&client->state.mutex); callback(RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY), client, callback_userdata); return NULL; } memcpy(pending_media->data, data, data_size); } client->state.load->pending_media = pending_media; } } else { game = client->game; } rc_mutex_unlock(&client->state.mutex); if (!game) { callback(RC_NO_GAME_LOADED, rc_error_str(RC_NO_GAME_LOADED), client, callback_userdata); return NULL; } /* still waiting for game data */ if (pending_media) return NULL; /* check to see if we've already hashed this file */ path_djb2 = rc_djb2(file_path); rc_mutex_lock(&client->state.mutex); for (media_hash = game->media_hash; media_hash; media_hash = media_hash->next) { if (media_hash->path_djb2 == path_djb2) { game_hash = media_hash->game_hash; break; } } rc_mutex_unlock(&client->state.mutex); if (!game_hash) { char hash[33]; int result; if (client->state.log_level >= RC_CLIENT_LOG_LEVEL_INFO) { g_hash_client = client; rc_hash_init_error_message_callback(rc_client_log_hash_message); rc_hash_init_verbose_message_callback(rc_client_log_hash_message); } if (data != NULL) result = rc_hash_generate_from_buffer(hash, game->public_.console_id, data, data_size); else result = rc_hash_generate_from_file(hash, game->public_.console_id, file_path); g_hash_client = NULL; if (!result) { /* when changing discs, if the disc is not supported by the system, allow it. this is * primarily for games that support user-provided audio CDs, but does allow using discs * from other systems for games that leverage user-provided discs. */ strcpy_s(hash, sizeof(hash), "[NO HASH]"); } game_hash = rc_client_find_game_hash(client, hash); media_hash = (rc_client_media_hash_t*)rc_buffer_alloc(&game->buffer, sizeof(*media_hash)); media_hash->game_hash = game_hash; media_hash->path_djb2 = path_djb2; rc_mutex_lock(&client->state.mutex); media_hash->next = game->media_hash; game->media_hash = media_hash; rc_mutex_unlock(&client->state.mutex); if (!result) { rc_client_change_media(client, game_hash, callback, callback_userdata); return NULL; } } if (game_hash->game_id != RC_CLIENT_UNKNOWN_GAME_ID) { rc_client_change_media(client, game_hash, callback, callback_userdata); return NULL; } else { /* call the server to make sure the hash is valid for the loaded game */ rc_client_load_state_t* callback_data; rc_client_async_handle_t* async_handle; rc_api_resolve_hash_request_t resolve_hash_request; rc_api_request_t request; int result; memset(&resolve_hash_request, 0, sizeof(resolve_hash_request)); resolve_hash_request.game_hash = game_hash->hash; result = rc_api_init_resolve_hash_request(&request, &resolve_hash_request); if (result != RC_OK) { callback(result, rc_error_str(result), client, callback_userdata); return NULL; } callback_data = (rc_client_load_state_t*)calloc(1, sizeof(rc_client_load_state_t)); if (!callback_data) { callback(RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY), client, callback_userdata); return NULL; } callback_data->callback = callback; callback_data->callback_userdata = callback_userdata; callback_data->client = client; callback_data->hash = game_hash; callback_data->game = game; async_handle = &callback_data->async_handle; rc_client_begin_async(client, async_handle); client->callbacks.server_call(&request, rc_client_identify_changed_media_callback, callback_data, client); rc_api_destroy_request(&request); /* if handle is no longer valid, the async operation completed synchronously */ return rc_client_async_handle_valid(client, async_handle) ? async_handle : NULL; } } const rc_client_game_t* rc_client_get_game_info(const rc_client_t* client) { if (!client) return NULL; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->get_game_info) return client->state.external_client->get_game_info(); #endif return client->game ? &client->game->public_ : NULL; } int rc_client_game_get_image_url(const rc_client_game_t* game, char buffer[], size_t buffer_size) { if (!game) return RC_INVALID_STATE; return rc_client_get_image_url(buffer, buffer_size, RC_IMAGE_TYPE_GAME, game->badge_name); } /* ===== Subsets ===== */ rc_client_async_handle_t* rc_client_begin_load_subset(rc_client_t* client, uint32_t subset_id, rc_client_callback_t callback, void* callback_userdata) { char buffer[32]; rc_client_load_state_t* load_state; if (!client) { callback(RC_INVALID_STATE, "client is required", client, callback_userdata); return NULL; } #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->begin_load_subset) return client->state.external_client->begin_load_subset(client, subset_id, callback, callback_userdata); #endif if (!client->game) { callback(RC_NO_GAME_LOADED, rc_error_str(RC_NO_GAME_LOADED), client, callback_userdata); return NULL; } snprintf(buffer, sizeof(buffer), "[SUBSET%lu]", (unsigned long)subset_id); load_state = (rc_client_load_state_t*)calloc(1, sizeof(*load_state)); if (!load_state) { callback(RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY), client, callback_userdata); return NULL; } load_state->client = client; load_state->callback = callback; load_state->callback_userdata = callback_userdata; load_state->game = client->game; load_state->hash = rc_client_find_game_hash(client, buffer); load_state->hash->game_id = subset_id; client->state.load = load_state; rc_client_begin_fetch_game_data(load_state); return (client->state.load == load_state) ? &load_state->async_handle : NULL; } const rc_client_subset_t* rc_client_get_subset_info(rc_client_t* client, uint32_t subset_id) { rc_client_subset_info_t* subset; if (!client) return NULL; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->get_subset_info) return client->state.external_client->get_subset_info(subset_id); #endif if (!client->game) return NULL; for (subset = client->game->subsets; subset; subset = subset->next) { if (subset->public_.id == subset_id) return &subset->public_; } return NULL; } /* ===== Achievements ===== */ static void rc_client_update_achievement_display_information(rc_client_t* client, rc_client_achievement_info_t* achievement, time_t recent_unlock_time) { uint8_t new_bucket = RC_CLIENT_ACHIEVEMENT_BUCKET_UNKNOWN; uint32_t new_measured_value = 0; if (achievement->public_.bucket == RC_CLIENT_ACHIEVEMENT_BUCKET_UNSUPPORTED) return; achievement->public_.measured_progress[0] = '\0'; if (achievement->public_.state == RC_CLIENT_ACHIEVEMENT_STATE_UNLOCKED) { /* achievement unlocked */ if (achievement->public_.unlock_time >= recent_unlock_time) { new_bucket = RC_CLIENT_ACHIEVEMENT_BUCKET_RECENTLY_UNLOCKED; } else { new_bucket = RC_CLIENT_ACHIEVEMENT_BUCKET_UNLOCKED; if (client->state.disconnect && rc_client_is_award_achievement_pending(client, achievement->public_.id)) new_bucket = RC_CLIENT_ACHIEVEMENT_BUCKET_UNSYNCED; } } else { /* active achievement */ new_bucket = (achievement->public_.category == RC_CLIENT_ACHIEVEMENT_CATEGORY_UNOFFICIAL) ? RC_CLIENT_ACHIEVEMENT_BUCKET_UNOFFICIAL : RC_CLIENT_ACHIEVEMENT_BUCKET_LOCKED; if (achievement->trigger) { if (achievement->trigger->measured_target) { if (achievement->trigger->measured_value == RC_MEASURED_UNKNOWN) { /* value hasn't been initialized yet, leave progress string empty */ } else if (achievement->trigger->measured_value == 0) { /* value is 0, leave progress string empty. update progress to 0.0 */ achievement->public_.measured_percent = 0.0; } else { /* clamp measured value at target (can't get more than 100%) */ new_measured_value = (achievement->trigger->measured_value > achievement->trigger->measured_target) ? achievement->trigger->measured_target : achievement->trigger->measured_value; achievement->public_.measured_percent = ((float)new_measured_value * 100) / (float)achievement->trigger->measured_target; if (!achievement->trigger->measured_as_percent) { snprintf(achievement->public_.measured_progress, sizeof(achievement->public_.measured_progress), "%lu/%lu", (unsigned long)new_measured_value, (unsigned long)achievement->trigger->measured_target); } else if (achievement->public_.measured_percent >= 1.0) { snprintf(achievement->public_.measured_progress, sizeof(achievement->public_.measured_progress), "%lu%%", (unsigned long)achievement->public_.measured_percent); } } } if (achievement->trigger->state == RC_TRIGGER_STATE_PRIMED) new_bucket = RC_CLIENT_ACHIEVEMENT_BUCKET_ACTIVE_CHALLENGE; else if (achievement->public_.measured_percent >= 80.0) new_bucket = RC_CLIENT_ACHIEVEMENT_BUCKET_ALMOST_THERE; } } achievement->public_.bucket = new_bucket; } static const char* rc_client_get_achievement_bucket_label(uint8_t bucket_type) { switch (bucket_type) { case RC_CLIENT_ACHIEVEMENT_BUCKET_LOCKED: return "Locked"; case RC_CLIENT_ACHIEVEMENT_BUCKET_UNLOCKED: return "Unlocked"; case RC_CLIENT_ACHIEVEMENT_BUCKET_UNSUPPORTED: return "Unsupported"; case RC_CLIENT_ACHIEVEMENT_BUCKET_UNOFFICIAL: return "Unofficial"; case RC_CLIENT_ACHIEVEMENT_BUCKET_RECENTLY_UNLOCKED: return "Recently Unlocked"; case RC_CLIENT_ACHIEVEMENT_BUCKET_ACTIVE_CHALLENGE: return "Active Challenges"; case RC_CLIENT_ACHIEVEMENT_BUCKET_ALMOST_THERE: return "Almost There"; case RC_CLIENT_ACHIEVEMENT_BUCKET_UNSYNCED: return "Unlocks Not Synced to Server"; default: return "Unknown"; } } static const char* rc_client_get_subset_achievement_bucket_label(uint8_t bucket_type, rc_client_game_info_t* game, rc_client_subset_info_t* subset) { const char** ptr; const char* label; char* new_label; size_t new_label_len; switch (bucket_type) { case RC_CLIENT_ACHIEVEMENT_BUCKET_LOCKED: ptr = &subset->locked_label; break; case RC_CLIENT_ACHIEVEMENT_BUCKET_UNLOCKED: ptr = &subset->unlocked_label; break; case RC_CLIENT_ACHIEVEMENT_BUCKET_UNSUPPORTED: ptr = &subset->unsupported_label; break; case RC_CLIENT_ACHIEVEMENT_BUCKET_UNOFFICIAL: ptr = &subset->unofficial_label; break; default: return rc_client_get_achievement_bucket_label(bucket_type); } if (*ptr) return *ptr; label = rc_client_get_achievement_bucket_label(bucket_type); new_label_len = strlen(subset->public_.title) + strlen(label) + 4; new_label = (char*)rc_buffer_alloc(&game->buffer, new_label_len); snprintf(new_label, new_label_len, "%s - %s", subset->public_.title, label); *ptr = new_label; return new_label; } static int rc_client_compare_achievement_unlock_times(const void* a, const void* b) { const rc_client_achievement_t* unlock_a = *(const rc_client_achievement_t**)a; const rc_client_achievement_t* unlock_b = *(const rc_client_achievement_t**)b; if (unlock_b->unlock_time == unlock_a->unlock_time) return 0; return (unlock_b->unlock_time < unlock_a->unlock_time) ? -1 : 1; } static int rc_client_compare_achievement_progress(const void* a, const void* b) { const rc_client_achievement_t* unlock_a = *(const rc_client_achievement_t**)a; const rc_client_achievement_t* unlock_b = *(const rc_client_achievement_t**)b; if (unlock_b->measured_percent == unlock_a->measured_percent) { if (unlock_a->id == unlock_b->id) return 0; return (unlock_a->id < unlock_b->id) ? -1 : 1; } return (unlock_b->measured_percent < unlock_a->measured_percent) ? -1 : 1; } static uint8_t rc_client_map_bucket(uint8_t bucket, int grouping) { if (grouping == RC_CLIENT_ACHIEVEMENT_LIST_GROUPING_LOCK_STATE) { switch (bucket) { case RC_CLIENT_ACHIEVEMENT_BUCKET_RECENTLY_UNLOCKED: case RC_CLIENT_ACHIEVEMENT_BUCKET_UNSYNCED: return RC_CLIENT_ACHIEVEMENT_BUCKET_UNLOCKED; case RC_CLIENT_ACHIEVEMENT_BUCKET_ACTIVE_CHALLENGE: case RC_CLIENT_ACHIEVEMENT_BUCKET_ALMOST_THERE: return RC_CLIENT_ACHIEVEMENT_BUCKET_LOCKED; default: return bucket; } } return bucket; } rc_client_achievement_list_t* rc_client_create_achievement_list(rc_client_t* client, int category, int grouping) { rc_client_achievement_info_t* achievement; rc_client_achievement_info_t* stop; rc_client_achievement_t** bucket_achievements; rc_client_achievement_t** achievement_ptr; rc_client_achievement_bucket_t* bucket_ptr; rc_client_achievement_list_info_t* list; rc_client_subset_info_t* subset; const uint32_t list_size = RC_ALIGN(sizeof(*list)); uint32_t bucket_counts[NUM_RC_CLIENT_ACHIEVEMENT_BUCKETS]; uint32_t num_buckets; uint32_t num_achievements; size_t buckets_size; uint8_t bucket_type; uint32_t num_subsets = 0; uint32_t i, j; const uint8_t shared_bucket_order[] = { RC_CLIENT_ACHIEVEMENT_BUCKET_ACTIVE_CHALLENGE, RC_CLIENT_ACHIEVEMENT_BUCKET_RECENTLY_UNLOCKED, RC_CLIENT_ACHIEVEMENT_BUCKET_ALMOST_THERE, RC_CLIENT_ACHIEVEMENT_BUCKET_UNSYNCED, }; const uint8_t subset_bucket_order[] = { RC_CLIENT_ACHIEVEMENT_BUCKET_LOCKED, RC_CLIENT_ACHIEVEMENT_BUCKET_UNOFFICIAL, RC_CLIENT_ACHIEVEMENT_BUCKET_UNSUPPORTED, RC_CLIENT_ACHIEVEMENT_BUCKET_UNLOCKED }; const time_t recent_unlock_time = time(NULL) - RC_CLIENT_RECENT_UNLOCK_DELAY_SECONDS; if (!client) return (rc_client_achievement_list_t*)calloc(1, sizeof(rc_client_achievement_list_info_t)); #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->create_achievement_list) return (rc_client_achievement_list_t*)client->state.external_client->create_achievement_list(category, grouping); #endif if (!client->game) return (rc_client_achievement_list_t*)calloc(1, sizeof(rc_client_achievement_list_info_t)); memset(&bucket_counts, 0, sizeof(bucket_counts)); rc_mutex_lock(&client->state.mutex); subset = client->game->subsets; for (; subset; subset = subset->next) { if (!subset->active) continue; num_subsets++; achievement = subset->achievements; stop = achievement + subset->public_.num_achievements; for (; achievement < stop; ++achievement) { if (achievement->public_.category & category) { rc_client_update_achievement_display_information(client, achievement, recent_unlock_time); bucket_counts[rc_client_map_bucket(achievement->public_.bucket, grouping)]++; } } } num_buckets = 0; num_achievements = 0; for (i = 0; i < sizeof(bucket_counts) / sizeof(bucket_counts[0]); ++i) { if (bucket_counts[i]) { int needs_split = 0; num_achievements += bucket_counts[i]; if (num_subsets > 1) { for (j = 0; j < sizeof(subset_bucket_order) / sizeof(subset_bucket_order[0]); ++j) { if (subset_bucket_order[j] == i) { needs_split = 1; break; } } } if (!needs_split) { ++num_buckets; continue; } subset = client->game->subsets; for (; subset; subset = subset->next) { if (!subset->active) continue; achievement = subset->achievements; stop = achievement + subset->public_.num_achievements; for (; achievement < stop; ++achievement) { if (achievement->public_.category & category) { if (rc_client_map_bucket(achievement->public_.bucket, grouping) == i) { ++num_buckets; break; } } } } } } buckets_size = RC_ALIGN(num_buckets * sizeof(rc_client_achievement_bucket_t)); list = (rc_client_achievement_list_info_t*)malloc(list_size + buckets_size + num_achievements * sizeof(rc_client_achievement_t*)); bucket_ptr = list->public_.buckets = (rc_client_achievement_bucket_t*)((uint8_t*)list + list_size); achievement_ptr = (rc_client_achievement_t**)((uint8_t*)bucket_ptr + buckets_size); if (grouping == RC_CLIENT_ACHIEVEMENT_LIST_GROUPING_PROGRESS) { for (i = 0; i < sizeof(shared_bucket_order) / sizeof(shared_bucket_order[0]); ++i) { bucket_type = shared_bucket_order[i]; if (!bucket_counts[bucket_type]) continue; bucket_achievements = achievement_ptr; for (subset = client->game->subsets; subset; subset = subset->next) { if (!subset->active) continue; achievement = subset->achievements; stop = achievement + subset->public_.num_achievements; for (; achievement < stop; ++achievement) { if (achievement->public_.category & category && rc_client_map_bucket(achievement->public_.bucket, grouping) == bucket_type) { *achievement_ptr++ = &achievement->public_; } } } if (achievement_ptr > bucket_achievements) { bucket_ptr->achievements = bucket_achievements; bucket_ptr->num_achievements = (uint32_t)(achievement_ptr - bucket_achievements); bucket_ptr->subset_id = 0; bucket_ptr->label = rc_client_get_achievement_bucket_label(bucket_type); bucket_ptr->bucket_type = bucket_type; if (bucket_type == RC_CLIENT_ACHIEVEMENT_BUCKET_RECENTLY_UNLOCKED) qsort(bucket_ptr->achievements, bucket_ptr->num_achievements, sizeof(rc_client_achievement_t*), rc_client_compare_achievement_unlock_times); else if (bucket_type == RC_CLIENT_ACHIEVEMENT_BUCKET_ALMOST_THERE) qsort(bucket_ptr->achievements, bucket_ptr->num_achievements, sizeof(rc_client_achievement_t*), rc_client_compare_achievement_progress); ++bucket_ptr; } } } for (subset = client->game->subsets; subset; subset = subset->next) { if (!subset->active) continue; for (i = 0; i < sizeof(subset_bucket_order) / sizeof(subset_bucket_order[0]); ++i) { bucket_type = subset_bucket_order[i]; if (!bucket_counts[bucket_type]) continue; bucket_achievements = achievement_ptr; achievement = subset->achievements; stop = achievement + subset->public_.num_achievements; for (; achievement < stop; ++achievement) { if (achievement->public_.category & category && rc_client_map_bucket(achievement->public_.bucket, grouping) == bucket_type) { *achievement_ptr++ = &achievement->public_; } } if (achievement_ptr > bucket_achievements) { bucket_ptr->achievements = bucket_achievements; bucket_ptr->num_achievements = (uint32_t)(achievement_ptr - bucket_achievements); bucket_ptr->subset_id = (num_subsets > 1) ? subset->public_.id : 0; bucket_ptr->bucket_type = bucket_type; if (num_subsets > 1) bucket_ptr->label = rc_client_get_subset_achievement_bucket_label(bucket_type, client->game, subset); else bucket_ptr->label = rc_client_get_achievement_bucket_label(bucket_type); ++bucket_ptr; } } } rc_mutex_unlock(&client->state.mutex); list->destroy_func = NULL; list->public_.num_buckets = (uint32_t)(bucket_ptr - list->public_.buckets); return &list->public_; } void rc_client_destroy_achievement_list(rc_client_achievement_list_t* list) { rc_client_achievement_list_info_t* info = (rc_client_achievement_list_info_t*)list; if (info->destroy_func) info->destroy_func(info); else free(list); } int rc_client_has_achievements(rc_client_t* client) { rc_client_subset_info_t* subset; int result; if (!client) return 0; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->has_achievements) return client->state.external_client->has_achievements(); #endif if (!client->game) return 0; rc_mutex_lock(&client->state.mutex); subset = client->game->subsets; result = 0; for (; subset; subset = subset->next) { if (!subset->active) continue; if (subset->public_.num_achievements > 0) { result = 1; break; } } rc_mutex_unlock(&client->state.mutex); return result; } static const rc_client_achievement_t* rc_client_subset_get_achievement_info( rc_client_t* client, rc_client_subset_info_t* subset, uint32_t id) { rc_client_achievement_info_t* achievement = subset->achievements; rc_client_achievement_info_t* stop = achievement + subset->public_.num_achievements; for (; achievement < stop; ++achievement) { if (achievement->public_.id == id) { const time_t recent_unlock_time = time(NULL) - RC_CLIENT_RECENT_UNLOCK_DELAY_SECONDS; rc_mutex_lock((rc_mutex_t*)(&client->state.mutex)); rc_client_update_achievement_display_information(client, achievement, recent_unlock_time); rc_mutex_unlock((rc_mutex_t*)(&client->state.mutex)); return &achievement->public_; } } return NULL; } const rc_client_achievement_t* rc_client_get_achievement_info(rc_client_t* client, uint32_t id) { rc_client_subset_info_t* subset; if (!client) return NULL; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->get_achievement_info) return client->state.external_client->get_achievement_info(id); #endif if (!client->game) return NULL; for (subset = client->game->subsets; subset; subset = subset->next) { const rc_client_achievement_t* achievement = rc_client_subset_get_achievement_info(client, subset, id); if (achievement != NULL) return achievement; } return NULL; } int rc_client_achievement_get_image_url(const rc_client_achievement_t* achievement, int state, char buffer[], size_t buffer_size) { const int image_type = (state == RC_CLIENT_ACHIEVEMENT_STATE_UNLOCKED) ? RC_IMAGE_TYPE_ACHIEVEMENT : RC_IMAGE_TYPE_ACHIEVEMENT_LOCKED; if (!achievement || !achievement->badge_name[0]) return rc_client_get_image_url(buffer, buffer_size, image_type, "00000"); return rc_client_get_image_url(buffer, buffer_size, image_type, achievement->badge_name); } typedef struct rc_client_award_achievement_callback_data_t { uint32_t id; uint32_t retry_count; uint8_t hardcore; const char* game_hash; time_t unlock_time; rc_client_t* client; rc_client_scheduled_callback_data_t* scheduled_callback_data; } rc_client_award_achievement_callback_data_t; static int rc_client_is_award_achievement_pending(const rc_client_t* client, uint32_t achievement_id) { /* assume lock already held */ rc_client_scheduled_callback_data_t* scheduled_callback = client->state.scheduled_callbacks; for (; scheduled_callback; scheduled_callback = scheduled_callback->next) { if (scheduled_callback->callback == rc_client_award_achievement_retry) { rc_client_award_achievement_callback_data_t* ach_data = (rc_client_award_achievement_callback_data_t*)scheduled_callback->data; if (ach_data->id == achievement_id) return 1; } } return 0; } static void rc_client_award_achievement_server_call(rc_client_award_achievement_callback_data_t* ach_data); static void rc_client_award_achievement_retry(rc_client_scheduled_callback_data_t* callback_data, rc_client_t* client, rc_clock_t now) { rc_client_award_achievement_callback_data_t* ach_data = (rc_client_award_achievement_callback_data_t*)callback_data->data; (void)client; (void)now; rc_client_award_achievement_server_call(ach_data); } static void rc_client_award_achievement_callback(const rc_api_server_response_t* server_response, void* callback_data) { rc_client_award_achievement_callback_data_t* ach_data = (rc_client_award_achievement_callback_data_t*)callback_data; rc_api_award_achievement_response_t award_achievement_response; int result = rc_api_process_award_achievement_server_response(&award_achievement_response, server_response); const char* error_message = rc_client_server_error_message(&result, server_response->http_status_code, &award_achievement_response.response); if (error_message) { if (award_achievement_response.response.error_message && !rc_client_should_retry(server_response)) { /* actual error from server */ RC_CLIENT_LOG_ERR_FORMATTED(ach_data->client, "Error awarding achievement %u: %s", ach_data->id, error_message); rc_client_raise_server_error_event(ach_data->client, "award_achievement", ach_data->id, result, award_achievement_response.response.error_message); } else if (ach_data->retry_count++ == 0) { /* first retry is immediate */ RC_CLIENT_LOG_ERR_FORMATTED(ach_data->client, "Error awarding achievement %u: %s, retrying immediately", ach_data->id, error_message); rc_client_award_achievement_server_call(ach_data); return; } else { /* double wait time between each attempt until we hit a maximum delay of two minutes */ /* 1s -> 2s -> 4s -> 8s -> 16s -> 32s -> 64s -> 120s -> 120s -> 120s ...*/ const uint32_t delay = (ach_data->retry_count > 8) ? 120 : (1 << (ach_data->retry_count - 2)); RC_CLIENT_LOG_ERR_FORMATTED(ach_data->client, "Error awarding achievement %u: %s, retrying in %u seconds", ach_data->id, error_message, delay); if (!ach_data->scheduled_callback_data) { ach_data->scheduled_callback_data = (rc_client_scheduled_callback_data_t*)calloc(1, sizeof(*ach_data->scheduled_callback_data)); if (!ach_data->scheduled_callback_data) { RC_CLIENT_LOG_ERR_FORMATTED(ach_data->client, "Failed to allocate scheduled callback data for reattempt to unlock achievement %u", ach_data->id); rc_client_raise_server_error_event(ach_data->client, "award_achievement", ach_data->id, RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY)); return; } ach_data->scheduled_callback_data->callback = rc_client_award_achievement_retry; ach_data->scheduled_callback_data->data = ach_data; ach_data->scheduled_callback_data->related_id = ach_data->id; } ach_data->scheduled_callback_data->when = ach_data->client->callbacks.get_time_millisecs(ach_data->client) + delay * 1000; rc_client_schedule_callback(ach_data->client, ach_data->scheduled_callback_data); rc_client_update_disconnect_state(ach_data->client); return; } } else { ach_data->client->user.score = award_achievement_response.new_player_score; ach_data->client->user.score_softcore = award_achievement_response.new_player_score_softcore; if (award_achievement_response.awarded_achievement_id != ach_data->id) { RC_CLIENT_LOG_ERR_FORMATTED(ach_data->client, "Awarded achievement %u instead of %u", award_achievement_response.awarded_achievement_id, error_message); } else { if (award_achievement_response.response.error_message) { /* previously unlocked achievements are returned as a success with an error message */ RC_CLIENT_LOG_INFO_FORMATTED(ach_data->client, "Achievement %u: %s", ach_data->id, award_achievement_response.response.error_message); } else if (ach_data->retry_count) { RC_CLIENT_LOG_INFO_FORMATTED(ach_data->client, "Achievement %u awarded after %u attempts, new score: %u", ach_data->id, ach_data->retry_count + 1, ach_data->hardcore ? award_achievement_response.new_player_score : award_achievement_response.new_player_score_softcore); } else { RC_CLIENT_LOG_INFO_FORMATTED(ach_data->client, "Achievement %u awarded, new score: %u", ach_data->id, ach_data->hardcore ? award_achievement_response.new_player_score : award_achievement_response.new_player_score_softcore); } if (award_achievement_response.achievements_remaining == 0) { rc_client_subset_info_t* subset; for (subset = ach_data->client->game->subsets; subset; subset = subset->next) { if (subset->mastery == RC_CLIENT_MASTERY_STATE_NONE && rc_client_subset_get_achievement_info(ach_data->client, subset, ach_data->id)) { if (subset->public_.id == ach_data->client->game->public_.id) { RC_CLIENT_LOG_INFO_FORMATTED(ach_data->client, "Game %u %s", ach_data->client->game->public_.id, ach_data->client->state.hardcore ? "mastered" : "completed"); subset->mastery = RC_CLIENT_MASTERY_STATE_PENDING; } else { RC_CLIENT_LOG_INFO_FORMATTED(ach_data->client, "Subset %u %s", ach_data->client->game->public_.id, ach_data->client->state.hardcore ? "mastered" : "completed"); /* TODO: subset mastery notification */ subset->mastery = RC_CLIENT_MASTERY_STATE_SHOWN; } } } } } } if (ach_data->retry_count) rc_client_update_disconnect_state(ach_data->client); if (ach_data->scheduled_callback_data) free(ach_data->scheduled_callback_data); free(ach_data); } static void rc_client_award_achievement_server_call(rc_client_award_achievement_callback_data_t* ach_data) { rc_api_award_achievement_request_t api_params; rc_api_request_t request; int result; memset(&api_params, 0, sizeof(api_params)); api_params.username = ach_data->client->user.username; api_params.api_token = ach_data->client->user.token; api_params.achievement_id = ach_data->id; api_params.hardcore = ach_data->hardcore; api_params.game_hash = ach_data->game_hash; result = rc_api_init_award_achievement_request(&request, &api_params); if (result != RC_OK) { RC_CLIENT_LOG_ERR_FORMATTED(ach_data->client, "Error constructing unlock request for achievement %u: %s", ach_data->id, rc_error_str(result)); free(ach_data); return; } ach_data->client->callbacks.server_call(&request, rc_client_award_achievement_callback, ach_data, ach_data->client); rc_api_destroy_request(&request); } static void rc_client_award_achievement(rc_client_t* client, rc_client_achievement_info_t* achievement) { rc_client_award_achievement_callback_data_t* callback_data; rc_mutex_lock(&client->state.mutex); if (client->state.hardcore) { achievement->public_.unlock_time = achievement->unlock_time_hardcore = time(NULL); if (achievement->unlock_time_softcore == 0) achievement->unlock_time_softcore = achievement->unlock_time_hardcore; /* adjust score now - will get accurate score back from server */ client->user.score += achievement->public_.points; } else { achievement->public_.unlock_time = achievement->unlock_time_softcore = time(NULL); /* adjust score now - will get accurate score back from server */ client->user.score_softcore += achievement->public_.points; } achievement->public_.state = RC_CLIENT_ACHIEVEMENT_STATE_UNLOCKED; achievement->public_.unlocked |= (client->state.hardcore) ? RC_CLIENT_ACHIEVEMENT_UNLOCKED_BOTH : RC_CLIENT_ACHIEVEMENT_UNLOCKED_SOFTCORE; rc_mutex_unlock(&client->state.mutex); if (client->callbacks.can_submit_achievement_unlock && !client->callbacks.can_submit_achievement_unlock(achievement->public_.id, client)) { RC_CLIENT_LOG_INFO_FORMATTED(client, "Achievement %u unlock blocked by client", achievement->public_.id); return; } /* can't unlock unofficial achievements on the server */ if (achievement->public_.category != RC_CLIENT_ACHIEVEMENT_CATEGORY_CORE) { RC_CLIENT_LOG_INFO_FORMATTED(client, "Unlocked unofficial achievement %u: %s", achievement->public_.id, achievement->public_.title); return; } /* don't actually unlock achievements when spectating */ if (client->state.spectator_mode != RC_CLIENT_SPECTATOR_MODE_OFF) { RC_CLIENT_LOG_INFO_FORMATTED(client, "Spectated achievement %u: %s", achievement->public_.id, achievement->public_.title); return; } callback_data = (rc_client_award_achievement_callback_data_t*)calloc(1, sizeof(*callback_data)); if (!callback_data) { RC_CLIENT_LOG_ERR_FORMATTED(client, "Failed to allocate callback data for unlocking achievement %u", achievement->public_.id); rc_client_raise_server_error_event(client, "award_achievement", achievement->public_.id, RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY)); return; } callback_data->client = client; callback_data->id = achievement->public_.id; callback_data->hardcore = client->state.hardcore; callback_data->game_hash = client->game->public_.hash; callback_data->unlock_time = achievement->public_.unlock_time; RC_CLIENT_LOG_INFO_FORMATTED(client, "Awarding achievement %u: %s", achievement->public_.id, achievement->public_.title); rc_client_award_achievement_server_call(callback_data); } static void rc_client_subset_reset_achievements(rc_client_subset_info_t* subset) { rc_client_achievement_info_t* achievement = subset->achievements; rc_client_achievement_info_t* stop = achievement + subset->public_.num_achievements; for (; achievement < stop; ++achievement) { rc_trigger_t* trigger = achievement->trigger; if (!trigger || achievement->public_.state != RC_CLIENT_ACHIEVEMENT_STATE_ACTIVE) continue; if (trigger->state == RC_TRIGGER_STATE_PRIMED) { achievement->pending_events |= RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_CHALLENGE_INDICATOR_HIDE; subset->pending_events |= RC_CLIENT_SUBSET_PENDING_EVENT_ACHIEVEMENT; } rc_reset_trigger(trigger); } } static void rc_client_reset_achievements(rc_client_t* client) { rc_client_subset_info_t* subset; for (subset = client->game->subsets; subset; subset = subset->next) rc_client_subset_reset_achievements(subset); } /* ===== Leaderboards ===== */ static rc_client_leaderboard_info_t* rc_client_subset_get_leaderboard_info(const rc_client_subset_info_t* subset, uint32_t id) { rc_client_leaderboard_info_t* leaderboard = subset->leaderboards; rc_client_leaderboard_info_t* stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < stop; ++leaderboard) { if (leaderboard->public_.id == id) return leaderboard; } return NULL; } const rc_client_leaderboard_t* rc_client_get_leaderboard_info(const rc_client_t* client, uint32_t id) { rc_client_subset_info_t* subset; if (!client) return NULL; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->get_leaderboard_info) return client->state.external_client->get_leaderboard_info(id); #endif if (!client->game) return NULL; for (subset = client->game->subsets; subset; subset = subset->next) { const rc_client_leaderboard_info_t* leaderboard = rc_client_subset_get_leaderboard_info(subset, id); if (leaderboard != NULL) return &leaderboard->public_; } return NULL; } static const char* rc_client_get_leaderboard_bucket_label(uint8_t bucket_type) { switch (bucket_type) { case RC_CLIENT_LEADERBOARD_BUCKET_INACTIVE: return "Inactive"; case RC_CLIENT_LEADERBOARD_BUCKET_ACTIVE: return "Active"; case RC_CLIENT_LEADERBOARD_BUCKET_UNSUPPORTED: return "Unsupported"; case RC_CLIENT_LEADERBOARD_BUCKET_ALL: return "All"; default: return "Unknown"; } } static const char* rc_client_get_subset_leaderboard_bucket_label(uint8_t bucket_type, rc_client_game_info_t* game, rc_client_subset_info_t* subset) { const char** ptr; const char* label; char* new_label; size_t new_label_len; switch (bucket_type) { case RC_CLIENT_LEADERBOARD_BUCKET_INACTIVE: ptr = &subset->inactive_label; break; case RC_CLIENT_LEADERBOARD_BUCKET_UNSUPPORTED: ptr = &subset->unsupported_label; break; case RC_CLIENT_LEADERBOARD_BUCKET_ALL: ptr = &subset->all_label; break; default: return rc_client_get_achievement_bucket_label(bucket_type); } if (*ptr) return *ptr; label = rc_client_get_leaderboard_bucket_label(bucket_type); new_label_len = strlen(subset->public_.title) + strlen(label) + 4; new_label = (char*)rc_buffer_alloc(&game->buffer, new_label_len); snprintf(new_label, new_label_len, "%s - %s", subset->public_.title, label); *ptr = new_label; return new_label; } static uint8_t rc_client_get_leaderboard_bucket(const rc_client_leaderboard_info_t* leaderboard, int grouping) { switch (leaderboard->public_.state) { case RC_CLIENT_LEADERBOARD_STATE_TRACKING: return (grouping == RC_CLIENT_LEADERBOARD_LIST_GROUPING_NONE) ? RC_CLIENT_LEADERBOARD_BUCKET_ALL : RC_CLIENT_LEADERBOARD_BUCKET_ACTIVE; case RC_CLIENT_LEADERBOARD_STATE_DISABLED: return RC_CLIENT_LEADERBOARD_BUCKET_UNSUPPORTED; default: return (grouping == RC_CLIENT_LEADERBOARD_LIST_GROUPING_NONE) ? RC_CLIENT_LEADERBOARD_BUCKET_ALL : RC_CLIENT_LEADERBOARD_BUCKET_INACTIVE; } } rc_client_leaderboard_list_t* rc_client_create_leaderboard_list(rc_client_t* client, int grouping) { rc_client_leaderboard_info_t* leaderboard; rc_client_leaderboard_info_t* stop; rc_client_leaderboard_t** bucket_leaderboards; rc_client_leaderboard_t** leaderboard_ptr; rc_client_leaderboard_bucket_t* bucket_ptr; rc_client_leaderboard_list_info_t* list; rc_client_subset_info_t* subset; const uint32_t list_size = RC_ALIGN(sizeof(*list)); uint32_t bucket_counts[8]; uint32_t num_buckets; uint32_t num_leaderboards; size_t buckets_size; uint8_t bucket_type; uint32_t num_subsets = 0; uint32_t i, j; const uint8_t shared_bucket_order[] = { RC_CLIENT_LEADERBOARD_BUCKET_ACTIVE }; const uint8_t subset_bucket_order[] = { RC_CLIENT_LEADERBOARD_BUCKET_ALL, RC_CLIENT_LEADERBOARD_BUCKET_INACTIVE, RC_CLIENT_LEADERBOARD_BUCKET_UNSUPPORTED }; if (!client) return calloc(1, sizeof(rc_client_leaderboard_list_t)); #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->create_leaderboard_list) return (rc_client_leaderboard_list_t*)client->state.external_client->create_leaderboard_list(grouping); #endif if (!client->game) return calloc(1, sizeof(rc_client_leaderboard_list_t)); memset(&bucket_counts, 0, sizeof(bucket_counts)); rc_mutex_lock(&client->state.mutex); subset = client->game->subsets; for (; subset; subset = subset->next) { if (!subset->active) continue; num_subsets++; leaderboard = subset->leaderboards; stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < stop; ++leaderboard) { if (leaderboard->hidden) continue; leaderboard->bucket = rc_client_get_leaderboard_bucket(leaderboard, grouping); bucket_counts[leaderboard->bucket]++; } } num_buckets = 0; num_leaderboards = 0; for (i = 0; i < sizeof(bucket_counts) / sizeof(bucket_counts[0]); ++i) { if (bucket_counts[i]) { int needs_split = 0; num_leaderboards += bucket_counts[i]; if (num_subsets > 1) { for (j = 0; j < sizeof(subset_bucket_order) / sizeof(subset_bucket_order[0]); ++j) { if (subset_bucket_order[j] == i) { needs_split = 1; break; } } } if (!needs_split) { ++num_buckets; continue; } subset = client->game->subsets; for (; subset; subset = subset->next) { if (!subset->active) continue; leaderboard = subset->leaderboards; stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < stop; ++leaderboard) { if (leaderboard->bucket == i) { ++num_buckets; break; } } } } } buckets_size = RC_ALIGN(num_buckets * sizeof(rc_client_leaderboard_bucket_t)); list = (rc_client_leaderboard_list_info_t*)malloc(list_size + buckets_size + num_leaderboards * sizeof(rc_client_leaderboard_t*)); bucket_ptr = list->public_.buckets = (rc_client_leaderboard_bucket_t*)((uint8_t*)list + list_size); leaderboard_ptr = (rc_client_leaderboard_t**)((uint8_t*)bucket_ptr + buckets_size); if (grouping == RC_CLIENT_LEADERBOARD_LIST_GROUPING_TRACKING) { for (i = 0; i < sizeof(shared_bucket_order) / sizeof(shared_bucket_order[0]); ++i) { bucket_type = shared_bucket_order[i]; if (!bucket_counts[bucket_type]) continue; bucket_leaderboards = leaderboard_ptr; for (subset = client->game->subsets; subset; subset = subset->next) { if (!subset->active) continue; leaderboard = subset->leaderboards; stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < stop; ++leaderboard) { if (leaderboard->bucket == bucket_type && !leaderboard->hidden) *leaderboard_ptr++ = &leaderboard->public_; } } if (leaderboard_ptr > bucket_leaderboards) { bucket_ptr->leaderboards = bucket_leaderboards; bucket_ptr->num_leaderboards = (uint32_t)(leaderboard_ptr - bucket_leaderboards); bucket_ptr->subset_id = 0; bucket_ptr->label = rc_client_get_leaderboard_bucket_label(bucket_type); bucket_ptr->bucket_type = bucket_type; ++bucket_ptr; } } } for (subset = client->game->subsets; subset; subset = subset->next) { if (!subset->active) continue; for (i = 0; i < sizeof(subset_bucket_order) / sizeof(subset_bucket_order[0]); ++i) { bucket_type = subset_bucket_order[i]; if (!bucket_counts[bucket_type]) continue; bucket_leaderboards = leaderboard_ptr; leaderboard = subset->leaderboards; stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < stop; ++leaderboard) { if (leaderboard->bucket == bucket_type && !leaderboard->hidden) *leaderboard_ptr++ = &leaderboard->public_; } if (leaderboard_ptr > bucket_leaderboards) { bucket_ptr->leaderboards = bucket_leaderboards; bucket_ptr->num_leaderboards = (uint32_t)(leaderboard_ptr - bucket_leaderboards); bucket_ptr->subset_id = (num_subsets > 1) ? subset->public_.id : 0; bucket_ptr->bucket_type = bucket_type; if (num_subsets > 1) bucket_ptr->label = rc_client_get_subset_leaderboard_bucket_label(bucket_type, client->game, subset); else bucket_ptr->label = rc_client_get_leaderboard_bucket_label(bucket_type); ++bucket_ptr; } } } rc_mutex_unlock(&client->state.mutex); list->destroy_func = NULL; list->public_.num_buckets = (uint32_t)(bucket_ptr - list->public_.buckets); return &list->public_; } void rc_client_destroy_leaderboard_list(rc_client_leaderboard_list_t* list) { rc_client_leaderboard_list_info_t* info = (rc_client_leaderboard_list_info_t*)list; if (info->destroy_func) info->destroy_func(info); else free(list); } int rc_client_has_leaderboards(rc_client_t* client) { rc_client_subset_info_t* subset; int result; if (!client) return 0; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->has_leaderboards) return client->state.external_client->has_leaderboards(); #endif if (!client->game) return 0; rc_mutex_lock(&client->state.mutex); subset = client->game->subsets; result = 0; for (; subset; subset = subset->next) { if (!subset->active) continue; if (subset->public_.num_leaderboards > 0) { result = 1; break; } } rc_mutex_unlock(&client->state.mutex); return result; } static void rc_client_allocate_leaderboard_tracker(rc_client_game_info_t* game, rc_client_leaderboard_info_t* leaderboard) { rc_client_leaderboard_tracker_info_t* tracker; rc_client_leaderboard_tracker_info_t* available_tracker = NULL; for (tracker = game->leaderboard_trackers; tracker; tracker = tracker->next) { if (tracker->reference_count == 0) { if (available_tracker == NULL && tracker->pending_events == RC_CLIENT_LEADERBOARD_TRACKER_PENDING_EVENT_NONE) available_tracker = tracker; continue; } if (tracker->value_djb2 != leaderboard->value_djb2 || tracker->format != leaderboard->format) continue; if (tracker->raw_value != leaderboard->value) { /* if the value comes from tracking hits, we can't assume the trackers started in the * same frame, so we can't share the tracker */ if (tracker->value_from_hits) continue; /* value has changed. prepare an update event */ tracker->raw_value = leaderboard->value; tracker->pending_events |= RC_CLIENT_LEADERBOARD_TRACKER_PENDING_EVENT_UPDATE; game->pending_events |= RC_CLIENT_GAME_PENDING_EVENT_LEADERBOARD_TRACKER; } /* attach to the existing tracker */ ++tracker->reference_count; tracker->pending_events &= ~RC_CLIENT_LEADERBOARD_TRACKER_PENDING_EVENT_HIDE; leaderboard->tracker = tracker; leaderboard->public_.tracker_value = tracker->public_.display; return; } if (!available_tracker) { rc_client_leaderboard_tracker_info_t** next = &game->leaderboard_trackers; available_tracker = (rc_client_leaderboard_tracker_info_t*)rc_buffer_alloc(&game->buffer, sizeof(*available_tracker)); memset(available_tracker, 0, sizeof(*available_tracker)); available_tracker->public_.id = 1; for (tracker = *next; tracker; next = &tracker->next, tracker = *next) available_tracker->public_.id++; *next = available_tracker; } /* update the claimed tracker */ available_tracker->reference_count = 1; available_tracker->value_djb2 = leaderboard->value_djb2; available_tracker->format = leaderboard->format; available_tracker->raw_value = leaderboard->value; available_tracker->pending_events = RC_CLIENT_LEADERBOARD_TRACKER_PENDING_EVENT_SHOW; available_tracker->value_from_hits = rc_value_from_hits(&leaderboard->lboard->value); leaderboard->tracker = available_tracker; leaderboard->public_.tracker_value = available_tracker->public_.display; game->pending_events |= RC_CLIENT_GAME_PENDING_EVENT_LEADERBOARD_TRACKER; } void rc_client_release_leaderboard_tracker(rc_client_game_info_t* game, rc_client_leaderboard_info_t* leaderboard) { rc_client_leaderboard_tracker_info_t* tracker = leaderboard->tracker; leaderboard->tracker = NULL; if (tracker && --tracker->reference_count == 0) { tracker->pending_events |= RC_CLIENT_LEADERBOARD_TRACKER_PENDING_EVENT_HIDE; game->pending_events |= RC_CLIENT_GAME_PENDING_EVENT_LEADERBOARD_TRACKER; } } static void rc_client_update_leaderboard_tracker(rc_client_game_info_t* game, rc_client_leaderboard_info_t* leaderboard) { rc_client_leaderboard_tracker_info_t* tracker = leaderboard->tracker; if (tracker && tracker->raw_value != leaderboard->value) { tracker->raw_value = leaderboard->value; tracker->pending_events |= RC_CLIENT_LEADERBOARD_TRACKER_PENDING_EVENT_UPDATE; game->pending_events |= RC_CLIENT_GAME_PENDING_EVENT_LEADERBOARD_TRACKER; } } typedef struct rc_client_submit_leaderboard_entry_callback_data_t { uint32_t id; int32_t score; uint32_t retry_count; const char* game_hash; time_t submit_time; rc_client_t* client; rc_client_scheduled_callback_data_t* scheduled_callback_data; } rc_client_submit_leaderboard_entry_callback_data_t; static void rc_client_submit_leaderboard_entry_server_call(rc_client_submit_leaderboard_entry_callback_data_t* lboard_data); static void rc_client_submit_leaderboard_entry_retry(rc_client_scheduled_callback_data_t* callback_data, rc_client_t* client, rc_clock_t now) { rc_client_submit_leaderboard_entry_callback_data_t* lboard_data = (rc_client_submit_leaderboard_entry_callback_data_t*)callback_data->data; (void)client; (void)now; rc_client_submit_leaderboard_entry_server_call(lboard_data); } static void rc_client_raise_scoreboard_event(rc_client_submit_leaderboard_entry_callback_data_t* lboard_data, const rc_api_submit_lboard_entry_response_t* response) { rc_client_leaderboard_scoreboard_t sboard; rc_client_event_t client_event; rc_client_subset_info_t* subset; rc_client_t* client = lboard_data->client; rc_client_leaderboard_info_t* leaderboard = NULL; if (!client || !client->game) return; for (subset = client->game->subsets; subset; subset = subset->next) { leaderboard = rc_client_subset_get_leaderboard_info(subset, lboard_data->id); if (leaderboard != NULL) break; } if (leaderboard == NULL) { RC_CLIENT_LOG_ERR_FORMATTED(client, "Trying to raise scoreboard for unknown leaderboard %u", lboard_data->id); return; } memset(&sboard, 0, sizeof(sboard)); sboard.leaderboard_id = lboard_data->id; rc_format_value(sboard.submitted_score, sizeof(sboard.submitted_score), response->submitted_score, leaderboard->format); rc_format_value(sboard.best_score, sizeof(sboard.best_score), response->best_score, leaderboard->format); sboard.new_rank = response->new_rank; sboard.num_entries = response->num_entries; sboard.num_top_entries = response->num_top_entries; if (sboard.num_top_entries > 0) { sboard.top_entries = (rc_client_leaderboard_scoreboard_entry_t*)calloc( response->num_top_entries, sizeof(rc_client_leaderboard_scoreboard_entry_t)); if (sboard.top_entries != NULL) { uint32_t i; for (i = 0; i < response->num_top_entries; i++) { sboard.top_entries[i].username = response->top_entries[i].username; sboard.top_entries[i].rank = response->top_entries[i].rank; rc_format_value(sboard.top_entries[i].score, sizeof(sboard.top_entries[i].score), response->top_entries[i].score, leaderboard->format); } } } memset(&client_event, 0, sizeof(client_event)); client_event.type = RC_CLIENT_EVENT_LEADERBOARD_SCOREBOARD; client_event.leaderboard = &leaderboard->public_; client_event.leaderboard_scoreboard = &sboard; lboard_data->client->callbacks.event_handler(&client_event, lboard_data->client); if (sboard.top_entries != NULL) { free(sboard.top_entries); } } static void rc_client_submit_leaderboard_entry_callback(const rc_api_server_response_t* server_response, void* callback_data) { rc_client_submit_leaderboard_entry_callback_data_t* lboard_data = (rc_client_submit_leaderboard_entry_callback_data_t*)callback_data; rc_api_submit_lboard_entry_response_t submit_lboard_entry_response; int result = rc_api_process_submit_lboard_entry_server_response(&submit_lboard_entry_response, server_response); const char* error_message = rc_client_server_error_message(&result, server_response->http_status_code, &submit_lboard_entry_response.response); if (error_message) { if (submit_lboard_entry_response.response.error_message && !rc_client_should_retry(server_response)) { /* actual error from server */ RC_CLIENT_LOG_ERR_FORMATTED(lboard_data->client, "Error submitting leaderboard entry %u: %s", lboard_data->id, error_message); rc_client_raise_server_error_event(lboard_data->client, "submit_lboard_entry", lboard_data->id, result, submit_lboard_entry_response.response.error_message); } else if (lboard_data->retry_count++ == 0) { /* first retry is immediate */ RC_CLIENT_LOG_ERR_FORMATTED(lboard_data->client, "Error submitting leaderboard entry %u: %s, retrying immediately", lboard_data->id, error_message); rc_client_submit_leaderboard_entry_server_call(lboard_data); return; } else { /* double wait time between each attempt until we hit a maximum delay of two minutes */ /* 1s -> 2s -> 4s -> 8s -> 16s -> 32s -> 64s -> 120s -> 120s -> 120s ...*/ const uint32_t delay = (lboard_data->retry_count > 8) ? 120 : (1 << (lboard_data->retry_count - 2)); RC_CLIENT_LOG_ERR_FORMATTED(lboard_data->client, "Error submitting leaderboard entry %u: %s, retrying in %u seconds", lboard_data->id, error_message, delay); if (!lboard_data->scheduled_callback_data) { lboard_data->scheduled_callback_data = (rc_client_scheduled_callback_data_t*)calloc(1, sizeof(*lboard_data->scheduled_callback_data)); if (!lboard_data->scheduled_callback_data) { RC_CLIENT_LOG_ERR_FORMATTED(lboard_data->client, "Failed to allocate scheduled callback data for reattempt to submit entry for leaderboard %u", lboard_data->id); rc_client_raise_server_error_event(lboard_data->client, "submit_lboard_entry", lboard_data->id, RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY)); return; } lboard_data->scheduled_callback_data->callback = rc_client_submit_leaderboard_entry_retry; lboard_data->scheduled_callback_data->data = lboard_data; lboard_data->scheduled_callback_data->related_id = lboard_data->id; } lboard_data->scheduled_callback_data->when = lboard_data->client->callbacks.get_time_millisecs(lboard_data->client) + delay * 1000; rc_client_schedule_callback(lboard_data->client, lboard_data->scheduled_callback_data); rc_client_update_disconnect_state(lboard_data->client); return; } } else { /* raise event for scoreboard */ if (lboard_data->retry_count < 2) { rc_client_raise_scoreboard_event(lboard_data, &submit_lboard_entry_response); } /* not currently doing anything with the response */ if (lboard_data->retry_count) { RC_CLIENT_LOG_INFO_FORMATTED(lboard_data->client, "Leaderboard %u submission %d completed after %u attempts", lboard_data->id, lboard_data->score, lboard_data->retry_count); } } if (lboard_data->retry_count) rc_client_update_disconnect_state(lboard_data->client); if (lboard_data->scheduled_callback_data) free(lboard_data->scheduled_callback_data); free(lboard_data); } static void rc_client_submit_leaderboard_entry_server_call(rc_client_submit_leaderboard_entry_callback_data_t* lboard_data) { rc_api_submit_lboard_entry_request_t api_params; rc_api_request_t request; int result; memset(&api_params, 0, sizeof(api_params)); api_params.username = lboard_data->client->user.username; api_params.api_token = lboard_data->client->user.token; api_params.leaderboard_id = lboard_data->id; api_params.score = lboard_data->score; api_params.game_hash = lboard_data->game_hash; result = rc_api_init_submit_lboard_entry_request(&request, &api_params); if (result != RC_OK) { RC_CLIENT_LOG_ERR_FORMATTED(lboard_data->client, "Error constructing submit leaderboard entry for leaderboard %u: %s", lboard_data->id, rc_error_str(result)); return; } lboard_data->client->callbacks.server_call(&request, rc_client_submit_leaderboard_entry_callback, lboard_data, lboard_data->client); rc_api_destroy_request(&request); } static void rc_client_submit_leaderboard_entry(rc_client_t* client, rc_client_leaderboard_info_t* leaderboard) { rc_client_submit_leaderboard_entry_callback_data_t* callback_data; if (client->callbacks.can_submit_leaderboard_entry && !client->callbacks.can_submit_leaderboard_entry(leaderboard->public_.id, client)) { RC_CLIENT_LOG_INFO_FORMATTED(client, "Leaderboard %u entry submission blocked by client", leaderboard->public_.id); return; } /* don't actually submit leaderboard entries when spectating */ if (client->state.spectator_mode != RC_CLIENT_SPECTATOR_MODE_OFF) { RC_CLIENT_LOG_INFO_FORMATTED(client, "Spectated %s (%d) for leaderboard %u: %s", leaderboard->public_.tracker_value, leaderboard->value, leaderboard->public_.id, leaderboard->public_.title); return; } callback_data = (rc_client_submit_leaderboard_entry_callback_data_t*)calloc(1, sizeof(*callback_data)); if (!callback_data) { RC_CLIENT_LOG_ERR_FORMATTED(client, "Failed to allocate callback data for submitting entry for leaderboard %u", leaderboard->public_.id); rc_client_raise_server_error_event(client, "submit_lboard_entry", leaderboard->public_.id, RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY)); return; } callback_data->client = client; callback_data->id = leaderboard->public_.id; callback_data->score = leaderboard->value; callback_data->game_hash = client->game->public_.hash; callback_data->submit_time = time(NULL); RC_CLIENT_LOG_INFO_FORMATTED(client, "Submitting %s (%d) for leaderboard %u: %s", leaderboard->public_.tracker_value, leaderboard->value, leaderboard->public_.id, leaderboard->public_.title); rc_client_submit_leaderboard_entry_server_call(callback_data); } static void rc_client_subset_reset_leaderboards(rc_client_game_info_t* game, rc_client_subset_info_t* subset) { rc_client_leaderboard_info_t* leaderboard = subset->leaderboards; rc_client_leaderboard_info_t* stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < stop; ++leaderboard) { rc_lboard_t* lboard = leaderboard->lboard; if (!lboard) continue; switch (leaderboard->public_.state) { case RC_CLIENT_LEADERBOARD_STATE_INACTIVE: case RC_CLIENT_LEADERBOARD_STATE_DISABLED: continue; case RC_CLIENT_LEADERBOARD_STATE_TRACKING: rc_client_release_leaderboard_tracker(game, leaderboard); /* fallthrough */ /* to default */ default: leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_ACTIVE; rc_reset_lboard(lboard); break; } } } static void rc_client_reset_leaderboards(rc_client_t* client) { rc_client_subset_info_t* subset; for (subset = client->game->subsets; subset; subset = subset->next) rc_client_subset_reset_leaderboards(client->game, subset); } typedef struct rc_client_fetch_leaderboard_entries_callback_data_t { rc_client_t* client; rc_client_fetch_leaderboard_entries_callback_t callback; void* callback_userdata; uint32_t leaderboard_id; rc_client_async_handle_t async_handle; } rc_client_fetch_leaderboard_entries_callback_data_t; static void rc_client_fetch_leaderboard_entries_callback(const rc_api_server_response_t* server_response, void* callback_data) { rc_client_fetch_leaderboard_entries_callback_data_t* lbinfo_callback_data = (rc_client_fetch_leaderboard_entries_callback_data_t*)callback_data; rc_client_t* client = lbinfo_callback_data->client; rc_api_fetch_leaderboard_info_response_t lbinfo_response; const char* error_message; int result; result = rc_client_end_async(client, &lbinfo_callback_data->async_handle); if (result) { if (result != RC_CLIENT_ASYNC_DESTROYED) { RC_CLIENT_LOG_VERBOSE(client, "Fetch leaderbord entries aborted"); } free(lbinfo_callback_data); return; } result = rc_api_process_fetch_leaderboard_info_server_response(&lbinfo_response, server_response); error_message = rc_client_server_error_message(&result, server_response->http_status_code, &lbinfo_response.response); if (error_message) { RC_CLIENT_LOG_ERR_FORMATTED(client, "Fetch leaderboard %u info failed: %s", lbinfo_callback_data->leaderboard_id, error_message); lbinfo_callback_data->callback(result, error_message, NULL, client, lbinfo_callback_data->callback_userdata); } else { rc_client_leaderboard_entry_list_info_t* info; const size_t list_size = sizeof(*info) + sizeof(rc_client_leaderboard_entry_t) * lbinfo_response.num_entries; size_t needed_size = list_size; uint32_t i; for (i = 0; i < lbinfo_response.num_entries; i++) needed_size += strlen(lbinfo_response.entries[i].username) + 1; info = (rc_client_leaderboard_entry_list_info_t*)malloc(needed_size); if (!info) { lbinfo_callback_data->callback(RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY), NULL, client, lbinfo_callback_data->callback_userdata); } else { rc_client_leaderboard_entry_list_t* list = &info->public_; rc_client_leaderboard_entry_t* entry = list->entries = (rc_client_leaderboard_entry_t*)((uint8_t*)info + sizeof(*info)); char* user = (char*)((uint8_t*)list + list_size); const rc_api_lboard_info_entry_t* lbentry = lbinfo_response.entries; const rc_api_lboard_info_entry_t* stop = lbentry + lbinfo_response.num_entries; const size_t logged_in_user_len = strlen(client->user.display_name) + 1; info->destroy_func = NULL; list->user_index = -1; for (; lbentry < stop; ++lbentry, ++entry) { const size_t len = strlen(lbentry->username) + 1; entry->user = user; memcpy(user, lbentry->username, len); user += len; if (len == logged_in_user_len && memcmp(entry->user, client->user.display_name, len) == 0) list->user_index = (int)(entry - list->entries); entry->index = lbentry->index; entry->rank = lbentry->rank; entry->submitted = lbentry->submitted; rc_format_value(entry->display, sizeof(entry->display), lbentry->score, lbinfo_response.format); } list->num_entries = lbinfo_response.num_entries; lbinfo_callback_data->callback(RC_OK, NULL, list, client, lbinfo_callback_data->callback_userdata); } } rc_api_destroy_fetch_leaderboard_info_response(&lbinfo_response); free(lbinfo_callback_data); } static rc_client_async_handle_t* rc_client_begin_fetch_leaderboard_info(rc_client_t* client, const rc_api_fetch_leaderboard_info_request_t* lbinfo_request, rc_client_fetch_leaderboard_entries_callback_t callback, void* callback_userdata) { rc_client_fetch_leaderboard_entries_callback_data_t* callback_data; rc_client_async_handle_t* async_handle; rc_api_request_t request; int result; const char* error_message; result = rc_api_init_fetch_leaderboard_info_request(&request, lbinfo_request); if (result != RC_OK) { error_message = rc_error_str(result); callback(result, error_message, NULL, client, callback_userdata); return NULL; } callback_data = (rc_client_fetch_leaderboard_entries_callback_data_t*)calloc(1, sizeof(*callback_data)); if (!callback_data) { callback(RC_OUT_OF_MEMORY, rc_error_str(RC_OUT_OF_MEMORY), NULL, client, callback_userdata); return NULL; } callback_data->client = client; callback_data->callback = callback; callback_data->callback_userdata = callback_userdata; callback_data->leaderboard_id = lbinfo_request->leaderboard_id; async_handle = &callback_data->async_handle; rc_client_begin_async(client, async_handle); client->callbacks.server_call(&request, rc_client_fetch_leaderboard_entries_callback, callback_data, client); rc_api_destroy_request(&request); return rc_client_async_handle_valid(client, async_handle) ? async_handle : NULL; } rc_client_async_handle_t* rc_client_begin_fetch_leaderboard_entries(rc_client_t* client, uint32_t leaderboard_id, uint32_t first_entry, uint32_t count, rc_client_fetch_leaderboard_entries_callback_t callback, void* callback_userdata) { rc_api_fetch_leaderboard_info_request_t lbinfo_request; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->begin_fetch_leaderboard_entries) return client->state.external_client->begin_fetch_leaderboard_entries(client, leaderboard_id, first_entry, count, callback, callback_userdata); #endif memset(&lbinfo_request, 0, sizeof(lbinfo_request)); lbinfo_request.leaderboard_id = leaderboard_id; lbinfo_request.first_entry = first_entry; lbinfo_request.count = count; return rc_client_begin_fetch_leaderboard_info(client, &lbinfo_request, callback, callback_userdata); } rc_client_async_handle_t* rc_client_begin_fetch_leaderboard_entries_around_user(rc_client_t* client, uint32_t leaderboard_id, uint32_t count, rc_client_fetch_leaderboard_entries_callback_t callback, void* callback_userdata) { rc_api_fetch_leaderboard_info_request_t lbinfo_request; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->begin_fetch_leaderboard_entries_around_user) return client->state.external_client->begin_fetch_leaderboard_entries_around_user(client, leaderboard_id, count, callback, callback_userdata); #endif memset(&lbinfo_request, 0, sizeof(lbinfo_request)); lbinfo_request.leaderboard_id = leaderboard_id; lbinfo_request.username = client->user.username; lbinfo_request.count = count; if (!lbinfo_request.username) { callback(RC_LOGIN_REQUIRED, rc_error_str(RC_LOGIN_REQUIRED), NULL, client, callback_userdata); return NULL; } return rc_client_begin_fetch_leaderboard_info(client, &lbinfo_request, callback, callback_userdata); } void rc_client_destroy_leaderboard_entry_list(rc_client_leaderboard_entry_list_t* list) { rc_client_leaderboard_entry_list_info_t* info = (rc_client_leaderboard_entry_list_info_t*)list; if (info->destroy_func) info->destroy_func(info); else free(list); } int rc_client_leaderboard_entry_get_user_image_url(const rc_client_leaderboard_entry_t* entry, char buffer[], size_t buffer_size) { if (!entry) return RC_INVALID_STATE; return rc_client_get_image_url(buffer, buffer_size, RC_IMAGE_TYPE_USER, entry->user); } /* ===== Rich Presence ===== */ static void rc_client_ping_callback(const rc_api_server_response_t* server_response, void* callback_data) { rc_client_t* client = (rc_client_t*)callback_data; rc_api_ping_response_t response; int result = rc_api_process_ping_server_response(&response, server_response); const char* error_message = rc_client_server_error_message(&result, server_response->http_status_code, &response.response); if (error_message) { RC_CLIENT_LOG_WARN_FORMATTED(client, "Ping response error: %s", error_message); } rc_api_destroy_ping_response(&response); } static void rc_client_ping(rc_client_scheduled_callback_data_t* callback_data, rc_client_t* client, rc_clock_t now) { rc_api_ping_request_t api_params; rc_api_request_t request; char buffer[256]; int result; if (!client->callbacks.rich_presence_override || !client->callbacks.rich_presence_override(client, buffer, sizeof(buffer))) { rc_mutex_lock(&client->state.mutex); rc_runtime_get_richpresence(&client->game->runtime, buffer, sizeof(buffer), client->state.legacy_peek, client, NULL); rc_mutex_unlock(&client->state.mutex); } memset(&api_params, 0, sizeof(api_params)); api_params.username = client->user.username; api_params.api_token = client->user.token; api_params.game_id = client->game->public_.id; api_params.rich_presence = buffer; api_params.game_hash = client->game->public_.hash; api_params.hardcore = client->state.hardcore; result = rc_api_init_ping_request(&request, &api_params); if (result != RC_OK) { RC_CLIENT_LOG_WARN_FORMATTED(client, "Error generating ping request: %s", rc_error_str(result)); } else { client->callbacks.server_call(&request, rc_client_ping_callback, client, client); } callback_data->when = now + 120 * 1000; rc_client_schedule_callback(client, callback_data); } int rc_client_has_rich_presence(rc_client_t* client) { if (!client) return 0; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->has_rich_presence) return client->state.external_client->has_rich_presence(); #endif if (!client->game || !client->game->runtime.richpresence || !client->game->runtime.richpresence->richpresence) return 0; return 1; } size_t rc_client_get_rich_presence_message(rc_client_t* client, char buffer[], size_t buffer_size) { int result; if (!client || !buffer) return 0; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->get_rich_presence_message) return client->state.external_client->get_rich_presence_message(buffer, buffer_size); #endif if (!client->game) return 0; rc_mutex_lock(&client->state.mutex); result = rc_runtime_get_richpresence(&client->game->runtime, buffer, (unsigned)buffer_size, client->state.legacy_peek, client, NULL); rc_mutex_unlock(&client->state.mutex); if (result == 0) { result = snprintf(buffer, buffer_size, "Playing %s", client->game->public_.title); /* snprintf will return the amount of space needed, we want to return the number of chars written */ if ((size_t)result >= buffer_size) return (buffer_size - 1); } return result; } /* ===== Processing ===== */ void rc_client_set_event_handler(rc_client_t* client, rc_client_event_handler_t handler) { if (!client) return; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->set_event_handler) client->state.external_client->set_event_handler(client, handler); #endif client->callbacks.event_handler = handler; } void rc_client_set_read_memory_function(rc_client_t* client, rc_client_read_memory_func_t handler) { if (!client) return; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->set_read_memory) client->state.external_client->set_read_memory(client, handler); #endif client->callbacks.read_memory = handler; } static void rc_client_invalidate_processing_memref(rc_client_t* client) { rc_memref_t** next_memref = &client->game->runtime.memrefs; rc_memref_t* memref; /* if processing_memref is not set, this occurred following a pointer chain. ignore it. */ if (!client->state.processing_memref) return; /* invalid memref. remove from chain so we don't have to evaluate it in the future. * it's still there, so anything referencing it will always fetch the current value. */ while ((memref = *next_memref) != NULL) { if (memref == client->state.processing_memref) { *next_memref = memref->next; break; } next_memref = &memref->next; } rc_client_invalidate_memref_achievements(client->game, client, client->state.processing_memref); rc_client_invalidate_memref_leaderboards(client->game, client, client->state.processing_memref); client->state.processing_memref = NULL; } static uint32_t rc_client_peek_le(uint32_t address, uint32_t num_bytes, void* ud) { rc_client_t* client = (rc_client_t*)ud; uint32_t value = 0; uint32_t num_read = 0; /* if we know the address is out of range, and it's part of a pointer chain * (processing_memref is null), don't bother processing it. */ if (address > client->game->max_valid_address && !client->state.processing_memref) return 0; if (num_bytes <= sizeof(value)) { num_read = client->callbacks.read_memory(address, (uint8_t*)&value, num_bytes, client); if (num_read == num_bytes) return value; } if (num_read < num_bytes) rc_client_invalidate_processing_memref(client); return 0; } static uint32_t rc_client_peek(uint32_t address, uint32_t num_bytes, void* ud) { rc_client_t* client = (rc_client_t*)ud; uint8_t buffer[4]; uint32_t num_read = 0; /* if we know the address is out of range, and it's part of a pointer chain * (processing_memref is null), don't bother processing it. */ if (address > client->game->max_valid_address && !client->state.processing_memref) return 0; switch (num_bytes) { case 1: num_read = client->callbacks.read_memory(address, buffer, 1, client); if (num_read == 1) return buffer[0]; break; case 2: num_read = client->callbacks.read_memory(address, buffer, 2, client); if (num_read == 2) return buffer[0] | (buffer[1] << 8); break; case 3: num_read = client->callbacks.read_memory(address, buffer, 3, client); if (num_read == 3) return buffer[0] | (buffer[1] << 8) | (buffer[2] << 16); break; case 4: num_read = client->callbacks.read_memory(address, buffer, 4, client); if (num_read == 4) return buffer[0] | (buffer[1] << 8) | (buffer[2] << 16) | (buffer[3] << 24); break; default: break; } if (num_read < num_bytes) rc_client_invalidate_processing_memref(client); return 0; } void rc_client_set_legacy_peek(rc_client_t* client, int method) { if (method == RC_CLIENT_LEGACY_PEEK_AUTO) { union { uint32_t whole; uint8_t parts[4]; } u; u.whole = 1; method = (u.parts[0] == 1) ? RC_CLIENT_LEGACY_PEEK_LITTLE_ENDIAN_READS : RC_CLIENT_LEGACY_PEEK_CONSTRUCTED; } client->state.legacy_peek = (method == RC_CLIENT_LEGACY_PEEK_LITTLE_ENDIAN_READS) ? rc_client_peek_le : rc_client_peek; } int rc_client_is_processing_required(rc_client_t* client) { if (!client) return 0; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->is_processing_required) return client->state.external_client->is_processing_required(); #endif if (!client->game) return 0; if (client->game->runtime.trigger_count || client->game->runtime.lboard_count) return 1; return (client->game->runtime.richpresence && client->game->runtime.richpresence->richpresence); } static void rc_client_update_memref_values(rc_client_t* client) { rc_memref_t* memref = client->game->runtime.memrefs; uint32_t value; int invalidated_memref = 0; for (; memref; memref = memref->next) { if (memref->value.is_indirect) continue; client->state.processing_memref = memref; value = rc_peek_value(memref->address, memref->value.size, client->state.legacy_peek, client); if (client->state.processing_memref) { rc_update_memref_value(&memref->value, value); } else { /* if the peek function cleared the processing_memref, the memref was invalidated */ invalidated_memref = 1; } } client->state.processing_memref = NULL; if (invalidated_memref) rc_client_update_active_achievements(client->game); } static void rc_client_do_frame_process_achievements(rc_client_t* client, rc_client_subset_info_t* subset) { rc_client_achievement_info_t* achievement = subset->achievements; rc_client_achievement_info_t* stop = achievement + subset->public_.num_achievements; for (; achievement < stop; ++achievement) { rc_trigger_t* trigger = achievement->trigger; int old_state, new_state; uint32_t old_measured_value; if (!trigger || achievement->public_.state != RC_CLIENT_ACHIEVEMENT_STATE_ACTIVE) continue; old_measured_value = trigger->measured_value; old_state = trigger->state; new_state = rc_evaluate_trigger(trigger, client->state.legacy_peek, client, NULL); /* if the measured value changed and the achievement hasn't triggered, show a progress indicator */ if (trigger->measured_value != old_measured_value && old_measured_value != RC_MEASURED_UNKNOWN && trigger->measured_value <= trigger->measured_target && rc_trigger_state_active(new_state) && new_state != RC_TRIGGER_STATE_WAITING) { /* only show a popup for the achievement closest to triggering */ float progress = (float)trigger->measured_value / (float)trigger->measured_target; if (trigger->measured_as_percent) { /* if reporting the measured value as a percentage, only show the popup if the percentage changes */ const uint32_t old_percent = (uint32_t)(((unsigned long long)old_measured_value * 100) / trigger->measured_target); const uint32_t new_percent = (uint32_t)(((unsigned long long)trigger->measured_value * 100) / trigger->measured_target); if (old_percent == new_percent) progress = -1.0; } if (progress > client->game->progress_tracker.progress) { client->game->progress_tracker.progress = progress; client->game->progress_tracker.achievement = achievement; client->game->pending_events |= RC_CLIENT_GAME_PENDING_EVENT_PROGRESS_TRACKER; subset->pending_events |= RC_CLIENT_SUBSET_PENDING_EVENT_ACHIEVEMENT; achievement->pending_events |= RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_UPDATE; } } /* if the state hasn't changed, there won't be any events raised */ if (new_state == old_state) continue; /* raise a CHALLENGE_INDICATOR_HIDE event when changing from PRIMED to anything else */ if (old_state == RC_TRIGGER_STATE_PRIMED) achievement->pending_events |= RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_CHALLENGE_INDICATOR_HIDE; /* raise events for each of the possible new states */ if (new_state == RC_TRIGGER_STATE_TRIGGERED) achievement->pending_events |= RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_TRIGGERED; else if (new_state == RC_TRIGGER_STATE_PRIMED) achievement->pending_events |= RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_CHALLENGE_INDICATOR_SHOW; subset->pending_events |= RC_CLIENT_SUBSET_PENDING_EVENT_ACHIEVEMENT; } } static void rc_client_hide_progress_tracker(rc_client_t* client, rc_client_game_info_t* game) { /* ASSERT: this should only be called if the mutex is held */ if (game->progress_tracker.hide_callback && game->progress_tracker.hide_callback->when && game->progress_tracker.action == RC_CLIENT_PROGRESS_TRACKER_ACTION_NONE) { rc_client_reschedule_callback(client, game->progress_tracker.hide_callback, 0); game->progress_tracker.action = RC_CLIENT_PROGRESS_TRACKER_ACTION_HIDE; game->pending_events |= RC_CLIENT_GAME_PENDING_EVENT_PROGRESS_TRACKER; } } static void rc_client_progress_tracker_timer_elapsed(rc_client_scheduled_callback_data_t* callback_data, rc_client_t* client, rc_clock_t now) { rc_client_event_t client_event; memset(&client_event, 0, sizeof(client_event)); (void)callback_data; (void)now; rc_mutex_lock(&client->state.mutex); if (client->game->progress_tracker.action == RC_CLIENT_PROGRESS_TRACKER_ACTION_NONE) { client->game->progress_tracker.hide_callback->when = 0; client_event.type = RC_CLIENT_EVENT_ACHIEVEMENT_PROGRESS_INDICATOR_HIDE; } rc_mutex_unlock(&client->state.mutex); if (client_event.type) client->callbacks.event_handler(&client_event, client); } static void rc_client_do_frame_update_progress_tracker(rc_client_t* client, rc_client_game_info_t* game) { if (!game->progress_tracker.hide_callback) { game->progress_tracker.hide_callback = (rc_client_scheduled_callback_data_t*) rc_buffer_alloc(&game->buffer, sizeof(rc_client_scheduled_callback_data_t)); memset(game->progress_tracker.hide_callback, 0, sizeof(rc_client_scheduled_callback_data_t)); game->progress_tracker.hide_callback->callback = rc_client_progress_tracker_timer_elapsed; } if (game->progress_tracker.hide_callback->when == 0) game->progress_tracker.action = RC_CLIENT_PROGRESS_TRACKER_ACTION_SHOW; else game->progress_tracker.action = RC_CLIENT_PROGRESS_TRACKER_ACTION_UPDATE; rc_client_reschedule_callback(client, game->progress_tracker.hide_callback, client->callbacks.get_time_millisecs(client) + 2 * 1000); } static void rc_client_raise_progress_tracker_events(rc_client_t* client, rc_client_game_info_t* game) { rc_client_event_t client_event; memset(&client_event, 0, sizeof(client_event)); switch (game->progress_tracker.action) { case RC_CLIENT_PROGRESS_TRACKER_ACTION_SHOW: client_event.type = RC_CLIENT_EVENT_ACHIEVEMENT_PROGRESS_INDICATOR_SHOW; break; case RC_CLIENT_PROGRESS_TRACKER_ACTION_HIDE: client_event.type = RC_CLIENT_EVENT_ACHIEVEMENT_PROGRESS_INDICATOR_HIDE; break; default: client_event.type = RC_CLIENT_EVENT_ACHIEVEMENT_PROGRESS_INDICATOR_UPDATE; break; } game->progress_tracker.action = RC_CLIENT_PROGRESS_TRACKER_ACTION_NONE; client_event.achievement = &game->progress_tracker.achievement->public_; client->callbacks.event_handler(&client_event, client); } static void rc_client_raise_achievement_events(rc_client_t* client, rc_client_subset_info_t* subset) { rc_client_achievement_info_t* achievement = subset->achievements; rc_client_achievement_info_t* stop = achievement + subset->public_.num_achievements; rc_client_event_t client_event; time_t recent_unlock_time = 0; memset(&client_event, 0, sizeof(client_event)); for (; achievement < stop; ++achievement) { if (achievement->pending_events == RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_NONE) continue; /* kick off award achievement request first */ if (achievement->pending_events & RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_TRIGGERED) { rc_client_award_achievement(client, achievement); client->game->pending_events |= RC_CLIENT_GAME_PENDING_EVENT_UPDATE_ACTIVE_ACHIEVEMENTS; } /* update display state */ if (recent_unlock_time == 0) recent_unlock_time = time(NULL) - RC_CLIENT_RECENT_UNLOCK_DELAY_SECONDS; rc_client_update_achievement_display_information(client, achievement, recent_unlock_time); /* raise events */ client_event.achievement = &achievement->public_; if (achievement->pending_events & RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_CHALLENGE_INDICATOR_HIDE) { client_event.type = RC_CLIENT_EVENT_ACHIEVEMENT_CHALLENGE_INDICATOR_HIDE; client->callbacks.event_handler(&client_event, client); } else if (achievement->pending_events & RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_CHALLENGE_INDICATOR_SHOW) { client_event.type = RC_CLIENT_EVENT_ACHIEVEMENT_CHALLENGE_INDICATOR_SHOW; client->callbacks.event_handler(&client_event, client); } if (achievement->pending_events & RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_TRIGGERED) { client_event.type = RC_CLIENT_EVENT_ACHIEVEMENT_TRIGGERED; client->callbacks.event_handler(&client_event, client); } /* clear pending flags */ achievement->pending_events = RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_NONE; } } static void rc_client_raise_mastery_event(rc_client_t* client, rc_client_subset_info_t* subset) { rc_client_event_t client_event; memset(&client_event, 0, sizeof(client_event)); client_event.type = RC_CLIENT_EVENT_GAME_COMPLETED; subset->mastery = RC_CLIENT_MASTERY_STATE_SHOWN; client->callbacks.event_handler(&client_event, client); } static void rc_client_do_frame_process_leaderboards(rc_client_t* client, rc_client_subset_info_t* subset) { rc_client_leaderboard_info_t* leaderboard = subset->leaderboards; rc_client_leaderboard_info_t* stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < stop; ++leaderboard) { rc_lboard_t* lboard = leaderboard->lboard; int old_state, new_state; switch (leaderboard->public_.state) { case RC_CLIENT_LEADERBOARD_STATE_INACTIVE: case RC_CLIENT_LEADERBOARD_STATE_DISABLED: continue; default: if (!lboard) continue; break; } old_state = lboard->state; new_state = rc_evaluate_lboard(lboard, &leaderboard->value, client->state.legacy_peek, client, NULL); switch (new_state) { case RC_LBOARD_STATE_STARTED: /* leaderboard is running */ if (old_state != RC_LBOARD_STATE_STARTED) { leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_TRACKING; leaderboard->pending_events |= RC_CLIENT_LEADERBOARD_PENDING_EVENT_STARTED; rc_client_allocate_leaderboard_tracker(client->game, leaderboard); } else { rc_client_update_leaderboard_tracker(client->game, leaderboard); } break; case RC_LBOARD_STATE_CANCELED: if (old_state != RC_LBOARD_STATE_CANCELED) { leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_ACTIVE; leaderboard->pending_events |= RC_CLIENT_LEADERBOARD_PENDING_EVENT_FAILED; rc_client_release_leaderboard_tracker(client->game, leaderboard); } break; case RC_LBOARD_STATE_TRIGGERED: if (old_state != RC_RUNTIME_EVENT_LBOARD_TRIGGERED) { leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_ACTIVE; leaderboard->pending_events |= RC_CLIENT_LEADERBOARD_PENDING_EVENT_SUBMITTED; if (old_state != RC_LBOARD_STATE_STARTED) rc_client_allocate_leaderboard_tracker(client->game, leaderboard); else rc_client_update_leaderboard_tracker(client->game, leaderboard); rc_client_release_leaderboard_tracker(client->game, leaderboard); } break; } if (leaderboard->pending_events) subset->pending_events |= RC_CLIENT_SUBSET_PENDING_EVENT_LEADERBOARD; } } static void rc_client_raise_leaderboard_tracker_events(rc_client_t* client, rc_client_game_info_t* game) { rc_client_leaderboard_tracker_info_t* tracker = game->leaderboard_trackers; rc_client_event_t client_event; memset(&client_event, 0, sizeof(client_event)); tracker = game->leaderboard_trackers; for (; tracker; tracker = tracker->next) { if (tracker->pending_events == RC_CLIENT_LEADERBOARD_TRACKER_PENDING_EVENT_NONE) continue; client_event.leaderboard_tracker = &tracker->public_; /* update display text for new trackers or updated trackers */ if (tracker->pending_events & (RC_CLIENT_LEADERBOARD_TRACKER_PENDING_EVENT_SHOW | RC_CLIENT_LEADERBOARD_TRACKER_PENDING_EVENT_UPDATE)) rc_format_value(tracker->public_.display, sizeof(tracker->public_.display), tracker->raw_value, tracker->format); if (tracker->pending_events & RC_CLIENT_LEADERBOARD_TRACKER_PENDING_EVENT_HIDE) { if (tracker->pending_events & RC_CLIENT_LEADERBOARD_TRACKER_PENDING_EVENT_SHOW) { /* request to show and hide in the same frame - ignore the event */ } else { client_event.type = RC_CLIENT_EVENT_LEADERBOARD_TRACKER_HIDE; client->callbacks.event_handler(&client_event, client); } } else if (tracker->pending_events & RC_CLIENT_LEADERBOARD_TRACKER_PENDING_EVENT_SHOW) { client_event.type = RC_CLIENT_EVENT_LEADERBOARD_TRACKER_SHOW; client->callbacks.event_handler(&client_event, client); } else if (tracker->pending_events & RC_CLIENT_LEADERBOARD_TRACKER_PENDING_EVENT_UPDATE) { client_event.type = RC_CLIENT_EVENT_LEADERBOARD_TRACKER_UPDATE; client->callbacks.event_handler(&client_event, client); } tracker->pending_events = RC_CLIENT_LEADERBOARD_TRACKER_PENDING_EVENT_NONE; } } static void rc_client_raise_leaderboard_events(rc_client_t* client, rc_client_subset_info_t* subset) { rc_client_leaderboard_info_t* leaderboard = subset->leaderboards; rc_client_leaderboard_info_t* leaderboard_stop = leaderboard + subset->public_.num_leaderboards; rc_client_event_t client_event; memset(&client_event, 0, sizeof(client_event)); for (; leaderboard < leaderboard_stop; ++leaderboard) { if (leaderboard->pending_events == RC_CLIENT_LEADERBOARD_PENDING_EVENT_NONE) continue; client_event.leaderboard = &leaderboard->public_; if (leaderboard->pending_events & RC_CLIENT_LEADERBOARD_PENDING_EVENT_FAILED) { RC_CLIENT_LOG_VERBOSE_FORMATTED(client, "Leaderboard %u canceled: %s", leaderboard->public_.id, leaderboard->public_.title); client_event.type = RC_CLIENT_EVENT_LEADERBOARD_FAILED; client->callbacks.event_handler(&client_event, client); } else if (leaderboard->pending_events & RC_CLIENT_LEADERBOARD_PENDING_EVENT_SUBMITTED) { /* kick off submission request before raising event */ rc_client_submit_leaderboard_entry(client, leaderboard); client_event.type = RC_CLIENT_EVENT_LEADERBOARD_SUBMITTED; client->callbacks.event_handler(&client_event, client); } else if (leaderboard->pending_events & RC_CLIENT_LEADERBOARD_PENDING_EVENT_STARTED) { RC_CLIENT_LOG_VERBOSE_FORMATTED(client, "Leaderboard %u started: %s", leaderboard->public_.id, leaderboard->public_.title); client_event.type = RC_CLIENT_EVENT_LEADERBOARD_STARTED; client->callbacks.event_handler(&client_event, client); } leaderboard->pending_events = RC_CLIENT_LEADERBOARD_PENDING_EVENT_NONE; } } static void rc_client_reset_pending_events(rc_client_t* client) { rc_client_subset_info_t* subset; client->game->pending_events = RC_CLIENT_GAME_PENDING_EVENT_NONE; for (subset = client->game->subsets; subset; subset = subset->next) subset->pending_events = RC_CLIENT_SUBSET_PENDING_EVENT_NONE; } static void rc_client_subset_raise_pending_events(rc_client_t* client, rc_client_subset_info_t* subset) { /* raise any pending achievement events */ if (subset->pending_events & RC_CLIENT_SUBSET_PENDING_EVENT_ACHIEVEMENT) rc_client_raise_achievement_events(client, subset); /* raise any pending leaderboard events */ if (subset->pending_events & RC_CLIENT_SUBSET_PENDING_EVENT_LEADERBOARD) rc_client_raise_leaderboard_events(client, subset); /* raise mastery event if pending */ if (subset->mastery == RC_CLIENT_MASTERY_STATE_PENDING) rc_client_raise_mastery_event(client, subset); } static void rc_client_raise_pending_events(rc_client_t* client, rc_client_game_info_t* game) { rc_client_subset_info_t* subset; /* raise tracker events before leaderboard events so formatted values are updated for leaderboard events */ if (game->pending_events & RC_CLIENT_GAME_PENDING_EVENT_LEADERBOARD_TRACKER) rc_client_raise_leaderboard_tracker_events(client, game); for (subset = game->subsets; subset; subset = subset->next) rc_client_subset_raise_pending_events(client, subset); /* raise progress tracker events after achievement events so formatted values are updated for tracker event */ if (game->pending_events & RC_CLIENT_GAME_PENDING_EVENT_PROGRESS_TRACKER) rc_client_raise_progress_tracker_events(client, game); /* if any achievements were unlocked, resync the active achievements list */ if (game->pending_events & RC_CLIENT_GAME_PENDING_EVENT_UPDATE_ACTIVE_ACHIEVEMENTS) { rc_mutex_lock(&client->state.mutex); rc_client_update_active_achievements(game); rc_mutex_unlock(&client->state.mutex); } game->pending_events = RC_CLIENT_GAME_PENDING_EVENT_NONE; } void rc_client_do_frame(rc_client_t* client) { if (!client) return; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->do_frame) { client->state.external_client->do_frame(); return; } #endif if (client->game && !client->game->waiting_for_reset) { rc_runtime_richpresence_t* richpresence; rc_client_subset_info_t* subset; rc_mutex_lock(&client->state.mutex); rc_client_reset_pending_events(client); rc_client_update_memref_values(client); rc_update_variables(client->game->runtime.variables, client->state.legacy_peek, client, NULL); client->game->progress_tracker.progress = 0.0; for (subset = client->game->subsets; subset; subset = subset->next) { if (subset->active) rc_client_do_frame_process_achievements(client, subset); } if (client->game->pending_events & RC_CLIENT_GAME_PENDING_EVENT_PROGRESS_TRACKER) rc_client_do_frame_update_progress_tracker(client, client->game); if (client->state.hardcore) { for (subset = client->game->subsets; subset; subset = subset->next) { if (subset->active) rc_client_do_frame_process_leaderboards(client, subset); } } richpresence = client->game->runtime.richpresence; if (richpresence && richpresence->richpresence) rc_update_richpresence(richpresence->richpresence, client->state.legacy_peek, client, NULL); rc_mutex_unlock(&client->state.mutex); rc_client_raise_pending_events(client, client->game); } /* we've processed a frame. if there's a pause delay in effect, process it */ if (client->state.unpaused_frame_decay > 0) { client->state.unpaused_frame_decay--; if (client->state.unpaused_frame_decay == 0 && client->state.required_unpaused_frames > RC_MINIMUM_UNPAUSED_FRAMES) { /* the full decay has elapsed and a penalty still exists. * lower the penalty and reset the decay counter */ client->state.required_unpaused_frames >>= 1; if (client->state.required_unpaused_frames <= RC_MINIMUM_UNPAUSED_FRAMES) client->state.required_unpaused_frames = RC_MINIMUM_UNPAUSED_FRAMES; client->state.unpaused_frame_decay = client->state.required_unpaused_frames * (RC_PAUSE_DECAY_MULTIPLIER - 1) - 1; } } rc_client_idle(client); } void rc_client_idle(rc_client_t* client) { rc_client_scheduled_callback_data_t* scheduled_callback; if (!client) return; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->idle) { client->state.external_client->idle(); return; } #endif scheduled_callback = client->state.scheduled_callbacks; if (scheduled_callback) { const rc_clock_t now = client->callbacks.get_time_millisecs(client); do { rc_mutex_lock(&client->state.mutex); scheduled_callback = client->state.scheduled_callbacks; if (scheduled_callback) { if (scheduled_callback->when > now) { /* not time for next callback yet, ignore it */ scheduled_callback = NULL; } else { /* remove the callback from the queue while we process it. callback can requeue if desired */ client->state.scheduled_callbacks = scheduled_callback->next; } } rc_mutex_unlock(&client->state.mutex); if (!scheduled_callback) break; scheduled_callback->callback(scheduled_callback, client, now); } while (1); } if (client->state.disconnect & ~RC_CLIENT_DISCONNECT_VISIBLE) rc_client_raise_disconnect_events(client); } void rc_client_schedule_callback(rc_client_t* client, rc_client_scheduled_callback_data_t* scheduled_callback) { rc_client_scheduled_callback_data_t** last; rc_client_scheduled_callback_data_t* next; rc_mutex_lock(&client->state.mutex); last = &client->state.scheduled_callbacks; do { next = *last; if (!next || scheduled_callback->when < next->when) { scheduled_callback->next = next; *last = scheduled_callback; break; } last = &next->next; } while (1); rc_mutex_unlock(&client->state.mutex); } static void rc_client_reschedule_callback(rc_client_t* client, rc_client_scheduled_callback_data_t* callback, rc_clock_t when) { rc_client_scheduled_callback_data_t** last; rc_client_scheduled_callback_data_t* next; /* ASSERT: this should only be called if the mutex is held */ callback->when = when; last = &client->state.scheduled_callbacks; do { next = *last; if (next == callback) { if (when == 0) { /* request to unschedule the callback */ *last = next->next; next->next = NULL; break; } if (!next->next) { /* end of list, just append it */ break; } if (when < next->next->when) { /* already in the correct place */ break; } /* remove from current position - will insert later */ *last = next->next; next->next = NULL; continue; } if (!next || when < next->when) { /* insert here */ callback->next = next; *last = callback; break; } last = &next->next; } while (1); } static void rc_client_reset_richpresence(rc_client_t* client) { rc_runtime_richpresence_t* richpresence = client->game->runtime.richpresence; if (richpresence && richpresence->richpresence) rc_reset_richpresence(richpresence->richpresence); } static void rc_client_reset_variables(rc_client_t* client) { rc_value_t* variable = client->game->runtime.variables; for (; variable; variable = variable->next) rc_reset_value(variable); } static void rc_client_reset_all(rc_client_t* client) { rc_client_reset_achievements(client); rc_client_reset_leaderboards(client); rc_client_reset_richpresence(client); rc_client_reset_variables(client); } void rc_client_reset(rc_client_t* client) { rc_client_game_hash_t* game_hash; if (!client) return; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->reset) { client->state.external_client->reset(); return; } #endif if (!client->game) return; game_hash = rc_client_find_game_hash(client, client->game->public_.hash); if (game_hash && game_hash->game_id != client->game->public_.id) { /* current media is not for loaded game. unload game */ RC_CLIENT_LOG_WARN_FORMATTED(client, "Disabling runtime. Reset with non-game media loaded: %u (%s)", (game_hash->game_id == RC_CLIENT_UNKNOWN_GAME_ID) ? 0 : game_hash->game_id, game_hash->hash); rc_client_unload_game(client); return; } RC_CLIENT_LOG_INFO(client, "Resetting runtime"); rc_mutex_lock(&client->state.mutex); client->game->waiting_for_reset = 0; rc_client_reset_pending_events(client); rc_client_hide_progress_tracker(client, client->game); rc_client_reset_all(client); rc_mutex_unlock(&client->state.mutex); rc_client_raise_pending_events(client, client->game); } int rc_client_can_pause(rc_client_t* client, uint32_t* frames_remaining) { #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->can_pause) return client->state.external_client->can_pause(frames_remaining); #endif if (frames_remaining) *frames_remaining = 0; /* pause is always allowed in softcore */ if (!rc_client_get_hardcore_enabled(client)) return 1; /* a full decay means we haven't processed any frames since the last time this was called. */ if (client->state.unpaused_frame_decay == client->state.required_unpaused_frames * RC_PAUSE_DECAY_MULTIPLIER) return 1; /* if less than RC_MINIMUM_UNPAUSED_FRAMES have been processed, don't allow the pause */ if (client->state.unpaused_frame_decay > client->state.required_unpaused_frames * (RC_PAUSE_DECAY_MULTIPLIER - 1)) { if (frames_remaining) { *frames_remaining = client->state.unpaused_frame_decay - client->state.required_unpaused_frames * (RC_PAUSE_DECAY_MULTIPLIER - 1); } return 0; } /* we're going to allow the emulator to pause. calculate how many frames are needed before the next * pause will be allowed. */ if (client->state.unpaused_frame_decay > 0) { /* The user has paused within the decay window. Require a longer * run of unpaused frames before allowing the next pause */ if (client->state.required_unpaused_frames < 5 * 60) /* don't make delay longer then 5 seconds */ client->state.required_unpaused_frames += RC_MINIMUM_UNPAUSED_FRAMES; } /* require multiple unpaused_frames windows to decay the penalty */ client->state.unpaused_frame_decay = client->state.required_unpaused_frames * RC_PAUSE_DECAY_MULTIPLIER; return 1; } size_t rc_client_progress_size(rc_client_t* client) { size_t result; if (!client) return 0; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->progress_size) return client->state.external_client->progress_size(); #endif if (!client->game) return 0; rc_mutex_lock(&client->state.mutex); result = rc_runtime_progress_size(&client->game->runtime, NULL); rc_mutex_unlock(&client->state.mutex); return result; } int rc_client_serialize_progress(rc_client_t* client, uint8_t* buffer) { int result; if (!client) return RC_NO_GAME_LOADED; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->serialize_progress) return client->state.external_client->serialize_progress(buffer); #endif if (!client->game) return RC_NO_GAME_LOADED; if (!buffer) return RC_INVALID_STATE; rc_mutex_lock(&client->state.mutex); result = rc_runtime_serialize_progress(buffer, &client->game->runtime, NULL); rc_mutex_unlock(&client->state.mutex); return result; } static void rc_client_subset_before_deserialize_progress(rc_client_subset_info_t* subset) { rc_client_achievement_info_t* achievement; rc_client_achievement_info_t* achievement_stop; rc_client_leaderboard_info_t* leaderboard; rc_client_leaderboard_info_t* leaderboard_stop; /* flag any visible challenge indicators to be hidden */ achievement = subset->achievements; achievement_stop = achievement + subset->public_.num_achievements; for (; achievement < achievement_stop; ++achievement) { rc_trigger_t* trigger = achievement->trigger; if (trigger && trigger->state == RC_TRIGGER_STATE_PRIMED && achievement->public_.state == RC_CLIENT_ACHIEVEMENT_STATE_ACTIVE) { achievement->pending_events |= RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_CHALLENGE_INDICATOR_HIDE; subset->pending_events |= RC_CLIENT_SUBSET_PENDING_EVENT_ACHIEVEMENT; } } /* flag any visible trackers to be hidden */ leaderboard = subset->leaderboards; leaderboard_stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < leaderboard_stop; ++leaderboard) { rc_lboard_t* lboard = leaderboard->lboard; if (lboard && lboard->state == RC_LBOARD_STATE_STARTED && leaderboard->public_.state == RC_CLIENT_LEADERBOARD_STATE_TRACKING) { leaderboard->pending_events |= RC_CLIENT_LEADERBOARD_PENDING_EVENT_FAILED; subset->pending_events |= RC_CLIENT_SUBSET_PENDING_EVENT_LEADERBOARD; } } } static void rc_client_subset_after_deserialize_progress(rc_client_game_info_t* game, rc_client_subset_info_t* subset) { rc_client_achievement_info_t* achievement; rc_client_achievement_info_t* achievement_stop; rc_client_leaderboard_info_t* leaderboard; rc_client_leaderboard_info_t* leaderboard_stop; /* flag any challenge indicators that should be shown */ achievement = subset->achievements; achievement_stop = achievement + subset->public_.num_achievements; for (; achievement < achievement_stop; ++achievement) { rc_trigger_t* trigger = achievement->trigger; if (!trigger || achievement->public_.state != RC_CLIENT_ACHIEVEMENT_STATE_ACTIVE) continue; if (trigger->state == RC_TRIGGER_STATE_PRIMED) { /* if it's already shown, just keep it. otherwise flag it to be shown */ if (achievement->pending_events & RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_CHALLENGE_INDICATOR_HIDE) { achievement->pending_events &= ~RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_CHALLENGE_INDICATOR_HIDE; } else { achievement->pending_events |= RC_CLIENT_ACHIEVEMENT_PENDING_EVENT_CHALLENGE_INDICATOR_SHOW; subset->pending_events |= RC_CLIENT_SUBSET_PENDING_EVENT_ACHIEVEMENT; } } /* ASSERT: only active achievements are serialized, so we don't have to worry about * deserialization deactiving them. */ } /* flag any trackers that need to be shown */ leaderboard = subset->leaderboards; leaderboard_stop = leaderboard + subset->public_.num_leaderboards; for (; leaderboard < leaderboard_stop; ++leaderboard) { rc_lboard_t* lboard = leaderboard->lboard; if (!lboard || leaderboard->public_.state == RC_CLIENT_LEADERBOARD_STATE_INACTIVE || leaderboard->public_.state == RC_CLIENT_LEADERBOARD_STATE_DISABLED) continue; if (lboard->state == RC_LBOARD_STATE_STARTED) { leaderboard->value = (int)lboard->value.value.value; leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_TRACKING; /* if it's already being tracked, just update tracker. otherwise, allocate one */ if (leaderboard->pending_events & RC_CLIENT_LEADERBOARD_PENDING_EVENT_FAILED) { leaderboard->pending_events &= ~RC_CLIENT_LEADERBOARD_PENDING_EVENT_FAILED; rc_client_update_leaderboard_tracker(game, leaderboard); } else { rc_client_allocate_leaderboard_tracker(game, leaderboard); } } else if (leaderboard->pending_events & RC_CLIENT_LEADERBOARD_PENDING_EVENT_FAILED) { /* deallocate the tracker (don't actually raise the failed event) */ leaderboard->pending_events &= ~RC_CLIENT_LEADERBOARD_PENDING_EVENT_FAILED; leaderboard->public_.state = RC_CLIENT_LEADERBOARD_STATE_ACTIVE; rc_client_release_leaderboard_tracker(game, leaderboard); } } } int rc_client_deserialize_progress(rc_client_t* client, const uint8_t* serialized) { rc_client_subset_info_t* subset; int result; if (!client) return RC_NO_GAME_LOADED; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->deserialize_progress) return client->state.external_client->deserialize_progress(serialized); #endif if (!client->game) return RC_NO_GAME_LOADED; rc_mutex_lock(&client->state.mutex); rc_client_reset_pending_events(client); for (subset = client->game->subsets; subset; subset = subset->next) rc_client_subset_before_deserialize_progress(subset); rc_client_hide_progress_tracker(client, client->game); if (!serialized) { rc_client_reset_all(client); result = RC_OK; } else { result = rc_runtime_deserialize_progress(&client->game->runtime, serialized, NULL); } for (subset = client->game->subsets; subset; subset = subset->next) rc_client_subset_after_deserialize_progress(client->game, subset); rc_mutex_unlock(&client->state.mutex); rc_client_raise_pending_events(client, client->game); return result; } /* ===== Toggles ===== */ static void rc_client_enable_hardcore(rc_client_t* client) { client->state.hardcore = 1; if (client->game) { rc_client_toggle_hardcore_achievements(client->game, client, RC_CLIENT_ACHIEVEMENT_UNLOCKED_HARDCORE); rc_client_activate_leaderboards(client->game, client); /* disable processing until the client acknowledges the reset event by calling rc_runtime_reset() */ RC_CLIENT_LOG_INFO(client, "Hardcore enabled, waiting for reset"); client->game->waiting_for_reset = 1; } else { RC_CLIENT_LOG_INFO(client, "Hardcore enabled"); } } static void rc_client_disable_hardcore(rc_client_t* client) { client->state.hardcore = 0; RC_CLIENT_LOG_INFO(client, "Hardcore disabled"); if (client->game) { rc_client_toggle_hardcore_achievements(client->game, client, RC_CLIENT_ACHIEVEMENT_UNLOCKED_SOFTCORE); rc_client_deactivate_leaderboards(client->game, client); } } void rc_client_set_hardcore_enabled(rc_client_t* client, int enabled) { int changed = 0; if (!client) return; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->get_hardcore_enabled) { client->state.external_client->set_hardcore_enabled(enabled); return; } #endif rc_mutex_lock(&client->state.mutex); enabled = enabled ? 1 : 0; if (client->state.hardcore != enabled) { if (enabled) rc_client_enable_hardcore(client); else rc_client_disable_hardcore(client); changed = 1; } rc_mutex_unlock(&client->state.mutex); /* events must be raised outside of lock */ if (changed && client->game) { if (enabled) { /* if enabling hardcore, notify client that a reset is requested */ if (client->game->waiting_for_reset) { rc_client_event_t client_event; memset(&client_event, 0, sizeof(client_event)); client_event.type = RC_CLIENT_EVENT_RESET; client->callbacks.event_handler(&client_event, client); } } else { /* if disabling hardcore, leaderboards will be deactivated. raise events for hiding trackers */ rc_client_raise_pending_events(client, client->game); } } } int rc_client_get_hardcore_enabled(const rc_client_t* client) { if (!client) return 0; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->get_hardcore_enabled) return client->state.external_client->get_hardcore_enabled(); #endif return client->state.hardcore; } void rc_client_set_unofficial_enabled(rc_client_t* client, int enabled) { if (!client) return; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->set_unofficial_enabled) { client->state.external_client->set_unofficial_enabled(enabled); return; } #endif RC_CLIENT_LOG_INFO_FORMATTED(client, "Unofficial %s", enabled ? "enabled" : "disabled"); client->state.unofficial_enabled = enabled ? 1 : 0; } int rc_client_get_unofficial_enabled(const rc_client_t* client) { if (!client) return 0; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->get_unofficial_enabled) return client->state.external_client->get_unofficial_enabled(); #endif return client->state.unofficial_enabled; } void rc_client_set_encore_mode_enabled(rc_client_t* client, int enabled) { if (!client) return; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->set_encore_mode_enabled) { client->state.external_client->set_encore_mode_enabled(enabled); return; } #endif RC_CLIENT_LOG_INFO_FORMATTED(client, "Encore mode %s", enabled ? "enabled" : "disabled"); client->state.encore_mode = enabled ? 1 : 0; } int rc_client_get_encore_mode_enabled(const rc_client_t* client) { if (!client) return 0; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->get_encore_mode_enabled) return client->state.external_client->get_encore_mode_enabled(); #endif return client->state.encore_mode; } void rc_client_set_spectator_mode_enabled(rc_client_t* client, int enabled) { if (!client) return; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->set_spectator_mode_enabled) { client->state.external_client->set_spectator_mode_enabled(enabled); return; } #endif if (!enabled && client->state.spectator_mode == RC_CLIENT_SPECTATOR_MODE_LOCKED) { RC_CLIENT_LOG_WARN(client, "Spectator mode cannot be disabled if it was enabled prior to loading game."); return; } RC_CLIENT_LOG_INFO_FORMATTED(client, "Spectator mode %s", enabled ? "enabled" : "disabled"); client->state.spectator_mode = enabled ? RC_CLIENT_SPECTATOR_MODE_ON : RC_CLIENT_SPECTATOR_MODE_OFF; } int rc_client_get_spectator_mode_enabled(const rc_client_t* client) { if (!client) return 0; #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client->state.external_client && client->state.external_client->get_spectator_mode_enabled) return client->state.external_client->get_spectator_mode_enabled(); #endif return (client->state.spectator_mode == RC_CLIENT_SPECTATOR_MODE_OFF) ? 0 : 1; } void rc_client_set_userdata(rc_client_t* client, void* userdata) { if (client) client->callbacks.client_data = userdata; } void* rc_client_get_userdata(const rc_client_t* client) { return client ? client->callbacks.client_data : NULL; } void rc_client_set_host(const rc_client_t* client, const char* hostname) { /* if empty, just pass NULL */ if (hostname && !hostname[0]) hostname = NULL; /* clear the image host so it'll use the custom host for images too */ rc_api_set_image_host(NULL); /* set the custom host */ if (hostname && client) { RC_CLIENT_LOG_VERBOSE_FORMATTED(client, "Using host: %s", hostname); } rc_api_set_host(hostname); #ifdef RC_CLIENT_SUPPORTS_EXTERNAL if (client && client->state.external_client && client->state.external_client->set_host) client->state.external_client->set_host(hostname); #endif }